## Choose a sublist of interest

- Arithmetic Geometry
- ag.algebraic-geometry nt.number-theory
- Topology
- at.algebraic-topology gt.geometric-topology

## Or choose your own subject tags below

Welcome to MathMeetings.net! This is a list for research mathematics conferences, workshops, summer schools, etc.

There are a few other conference lists available, but this list
aims to be more complete by allowing *anyone at all* to add
announcements. Rather than use a wiki, announcement information is
stored in database format so that useful search functions can be
added as the list grows.

This site began as AlgTop-Conf, for meetings in algebraic topology. It is now expanded to serve other mathematics subjects. Use tag filtering to focus on announcements related to your discipline (see right or below).

## Know of a meeting not listed here? Add it now!

#### Updates 2016-01

- Now filter announcements by subject tags
- Form for editing announcements is now the same as that for adding new announcements
- New 'view' page for each announcement, and announcement data in confirmation emails
- Select boxes improved with select2 (jquery)

Additional update notes are available in the git repository (GitHub).

# Upcoming Meetings

## August 2016

### ALPINE CONFERENCE ON ALGEBRAIC AND APPLIED TOPOLOGY

Meeting Type: conference

Contact: see conference website

### Description

### Arithmetic Geometry and L-functions

Meeting Type: conference

Contact: see conference website

### Description

This is conference on arithmetic geometry and L-functions in honor or Professor Kumar Murty who is turning 60 this year. The conference is jointly organized by HRI, IMSC and KSOM.

There will be a banquet dinner and felicitation on 20th evening and an excursion trip to Mysore on 22nd-23rd.

### Mathematical Structures for Cryptography

Meeting Type: conference

Contact: see conference website

### Description

The goal of the workshop is to find new ways to use mathematical structures for cryptographic applications.

Very successful existing examples of such mathematical structures are given by RSA and elliptic curves, which your browser uses nowadays to set up a secure connection with online banking and other web-based services.

A promising recent example is the use of lattices in fully homomorphic encryption: a form of encryption where untrusted parties can compute properties of encrypted data without learning the content of the original data. This is becoming more and more important with the rise of online ‘cloud’ services.

Algebra, number theory and algebraic geometry have been a fertile source of suitable structures (RSA, lattices, elliptic curves, abelian varieties), and this workshop aims to bring together researchers from the cryptography and mathematics communities to work towards the goal mentioned above.

In addition to talks by cryptographers and mathematicians, the workshop will include ample time for informal discussion and interactions. The talks will include mathematics that is currently in cryptographic use, open questions, and new ways to use mathematical structures for cryptography.

### The Georgia Summer Workshop in Algebraic Geometry

Meeting Type: Summer School/ Workshop

Contact: Anand Deopurkar, Angela Gibney, Jesse Kass, Nicola Tarasca

### Description

The Georgia Summer Workshop In Algebraic Geometry will be an instructional program for graduate students and young PhDs with a focus on the topic "Moduli spaces of sheaves and their enumerative geometry." We will have at least five speakers each deliver 1-2 lectures on a topic of their choice related to the focus of the workshop, where the first talk is very introductory. Funding will be available through the UGA RTG grant.

The following weekend there will be a second workshop at UGA (Topological Approaches to Algebra and Arithmetic Geometry http://torsor.github.io/taaag/). On the registration page for our conference, you can indicate that you plan to attend both workshops, and ask for housing to be arranged during the week in between.

### 31st British Topology Meeting

Meeting Type: conference

Contact: Andrew Baker

### Description

Annual British Topology meeting. See the website for a list of main speakers.

### Arithmetic Algebraic Geometry

Meeting Type: conference

Contact: see conference website

### Description

### Twelfth Algorithmic Number Theory Symposium ANTS-XII

Meeting Type: conference

Contact: see conference website

### Description

Since their inception in 1994, the bi-annual ANTS meetings have become the premier international forum for the presentation of new research in computational number theory. They are devoted to algorithmic aspects of number theory, including elementary number theory, algebraic number theory, analytic number theory, geometry of numbers, algebraic geometry, finite fields, and cryptography.

### XXV International Fall Workshop on Geometry and Physics

Meeting Type: conference

Contact: Juan Margalef

### Description

**About IFWGP**

The Fall Workshops on Geometry and Physics have been held yearly since 1992, and bring together Spanish and Portuguese geometers and physicists, along with an ever increasing number of participants from outside the Iberian peninsula. The meetings aim to provide a forum for the exchange of ideas between researchers of different fields in Differential Geometry, Applied Mathematics and Physics, and always include a substantial number of enthusiastic young researchers amongst the participants.

In October 1992 a meeting organized by the Instituto de Matemáticas y Física Fundamental of Consejo Superior de Investigaciones Científicas (Manuel de León) and the Departamento de Física Teórica II of the Universidad Complutense (Alberto Ibort) was held in Madrid. This workshop gave birth to an annual sequence of meetings, originally named Workshop on Differential Geometry and its Applications (WODGA). Later, this name turned into the current one, taking into account the increase in the international participation and the fact that it was celebrated usually at the beginning of autumn.

**Main topics**

The Workshop is open to any topic in the interplay between Geometry and Physics, including

- Classical field theory
- Control theory
- Integrable systems
- Lie algebroids and mechanics
- Lorentz geometry
- Mechanics of continuous media
- Poisson geometry
- Quantum gravity
- Quantum mechanics
- Relativity
- Riemannian and pseudo-Riemannian geometry
- String theory
- Supergravity and supersymmetry
- Symplectic and contact geometry

## September 2016

### 20th Workshop on Elliptic Curve Cryptography

Meeting Type: graduate summer school, conference

Contact: see conference website

### Description

ECC is the premier annual workshop dedicated to the study of Elliptic Curve Cryptography and related areas of modern cryptography.

The 20th Workshop on Elliptic Curve Cryptography (ECC 2016) will take place on September 5-7, 2016, at Yaşar University in İzmir, Turkey.

The conference is accompanied by a 4-days summer school on elliptic curves aimed at getting graduate students involved in the area. The summer school will take place on September 1-4, 2016.

The aim of ECC is to bring together leading experts from academic, industry and government sectors as well as young researchers and graduate students for the purpose of exchanging ideas and presenting their work. The ECC Workshops has invited presentations only. Presentations tend to give an overview on emerging or established areas of modern cryptography, often combined with new research findings and often leads to new collaborations between attendees.

### TAAAG: Topological Approaches to Algebra and Arithmetic Geometry

Meeting Type: summer school

Contact: Danny Krashen

### Description

A central tool in many important modern developments in algebra and arithmetic geometry has been the influx of ideas from algebraic topology. In recent years, the way in which topological ideas have been used has branched in new and interesting ways. This workshop will serve to expose graduate students and recent PhD's to some recent developments along these lines with a collection of micro-courses and related talks.

### ARAKELOV GEOMETRY - ARCHIMEDEAN AND NON-ARCHIMEDEAN ASPECTS

Meeting Type: conference

Contact: email:sfb-higher-invariants@mathematik.uni-regensburg.de

### Description

The conference 'Arakelov Geometry - Archimedean and Non-Archimedean Aspects' is organized by Jose Ignacio Burgos Gil, Walter Gubler, Guido Kings, and Klaus Künnemann. This conference constitutes the eighth session of the Intercity Seminar on Arakelov Theory organized by Jose Ignacio Burgos Gil, Vincent Maillot and Atsushi Moriwaki with previous sessions in Barcelona, Kyoto, Paris, and Rome.

### Automorphic Forms: Theory and Computation

Meeting Type: conference

Contact: John Cremona, Fred Diamond, Wansu Kim, James Newton, Samir Siksek, Gabor Wiese

### Description

The aim of the workshop is to bring together researchers working on a range of topics related to automorphic forms and Galois representations, with an emphasis on the interface between theory and computation. Invited speakers include:

Kevin Buzzard (Imperial College London), Lassina Dembélé (University of Warwick), Tim Dokchitser (University of Bristol), Kiran Kedlaya (UC San Diego), Marc Masdeu (University of Warwick), Anna Medvedovsky (Brown/MPI), Ariel Pacetti (Buenos Aires/Warwick), Robert Pollack (Boston University), David Roberts (University of Minnesota, Morris), Mehmet Haluk Şengün (University of Sheffield), Olivier Taïbi (Imperial College London), John Voight (Dartmouth College).

### Workshop on Foliations, Laminations, Branched surfaces

Meeting Type: workshop

Contact: see conference website

### Description

Workshop on Foliations, Laminations, Branched surfaces

5-9 September 2016 at the Mathematical Institute of the LMU in Munich

Further information: http://www.mathematik.uni-muenchen.de/~bowden/Contact_Foliations/Contact_Foliations.php

Invited speakers:

```
Danny Calegari, University of Chicago (Lecture Series)
Vincent Colin, Université de Nantes (Lecture Series)
Steven Frankel, Yale
Will Kazez, University of Georgia
Tao Li, Boston College
Kathryn Mann, UC Berkeley
Shigenori Matsumoto, Nihon University
Rachel Roberts, Washington University, St Louis
Saul Schleimer, University of Warwick
```

Some funding is available, please apply before 30th of June.

### Kummer Classes and Anabelian Geometry

Meeting Type: conference

Contact: Taylor Dupuy, John Voight, Christelle Vincent, Carl Pomerance

### Description

### Instruments of Algebraic Geometry

Meeting Type: summer school

Contact: see conference website

### Description

Their goal is to cover some active topics in algebraic geometry: homological methods, discrete and arithmetic aspects, and singularities.

Besides the mathematics, a special feature of this event will be a close relation to the George Enescu Music Festival, which takes place in Bucharest every other year.

Moreover, an IMAGINARY exhibition will be presented during the three weeks of the festival, and further events involving a direct interaction of mathematics and music - and of mathematicians and musicians - are planned.

Klaus Altmann (FU Berlin) Marian Aprodu (Bucharest) Alexandru Constantinescu (FU Berlin) H'el`ene Esnault (FU Berlin)

### Higher Dimensional Algebraic Geometry and Characteristic p

Meeting Type: conference

Contact: see conference website

### Description

Over the past years, there has been substantial and rapid progress in the understanding of higher dimensional algebraic varieties in characteristic p > 0, specifically from the point of view of the minimal model program. Techniques first developed in commutative algebra and representation theory in the 1980s have begun to be employed extensively. Further development and dissemination of these methods is still needed. It has become clear that in order for further progress to be made, connections with arithmetic aspects of varieties in characteristic p > 0 must be explored and addressed. Recent applications of Berkovich spaces to birational algebraic geometry suggest one approach to deal with these arithmetic problems one encounters in characteristic p. This workshop will bring together researchers from several distinct areas within algebraic geometry and arithmetic geometry with the goal of disseminating recent techniques and forging new research connections.

### Hitchin70: Celebrating 30 years of Higgs bundles and 15 years of generalized geometry

Meeting Type: conference

Contact: see conference website

### Description

This event, in celebration of Nigel Hitchin's 70th birthday and in honour of his contributions to mathematics, is part of larger activity that will take place across three locations during the period 5-16 September 2016. It will begin in Aarhus (5-8 Sep 2016), continue in Oxford (9-11 Sep 2016) and end in Madrid (12-16 Sep 2016).

The Madrid event will celebrate 30 years of Higgs bundles and 15 years of generalized geometry. It will start around 14:30 on Monday 12th of September and will end by 13:30 on Friday 16th of September.

The following speakers have confirmed their participation in the Madrid component of Hitchin70:

David Baraglia Olivier Biquard Philip Boalch Gil Cavalcanti Brian Collier Xenia de la Ossa Mario Garcia-Fernandez Peter Gothen Marco Gualtieri Sergei Gukov Tamás Hausel Jacques Hurtubise François Labourie Rafe Mazzeo Brent Pym Laura Schaposnik Anna Wienhard

Sponsors:

ICMAT Severo Ochoa Programme Clay Mathematics Institute USA NSF network GEAR EU Marie Curie IRSES project MODULI

This event is organised in partnership with the Clay Mathematics Institute.

We hope to see you in September in Madrid.

The organizing committee:

Luis Alvarez-Consul (ICMAT) Steven Bradlow (U. Illinois at Urbana-Champaign) Oscar Garcia-Prada (ICMAT) Yat Sun Poon (U. California at Riverside)

### Women in Homotopy Theory and Algebraic Geometry

Meeting Type: Workshop

Contact: Joana Cirici, Vicky Hoskins, Oliver Roendigs

### Description

Invited speakers:

Hélène Esnault, Donatella Iacono, Birgit Richter, Ulrike Tillmann

Contributed talks:

Daniela Egas Santander, Rosona Eldred, Sara Angela Filippini, Magdalena Kedziorek, Elena Martinengo, Mariko Ohara, Viktoriya Ozornova, Claudia Scheimbauer, Stephanie Ziegenhagen

To register and for further information, please visit the conference website:

http://userpage.fu-berlin.de/jcirici/workshop.html

There is limited financial support available for women working in homotopy theory and algebraic geometry. The deadline to apply for financial support is 30 May 2016. Priority will be given to female participants who would like to make a scientific contribution. Anyone who is interested in the topic is welcome to attend, regardless of gender.

### Fall Midwest Topology Seminar

Meeting Type: conference

Contact: Ralph Kaufmann, David Gepner, Jim McClure, Jeremy Miller

### Description

Midwest Topology Seminar

### Differential forms in algebraic geometry

Meeting Type: conference

Contact: see conference website

### Description

The aim of this workshop is to bring experts from the field of motives together with specialists in birational geometry and algebraic geometry in positive characteristic.

### European Autumn School in Topology

Meeting Type: summer school

Contact: see conference website

### Description

DEADLINE 30 JUNE

This autumn school will take place during the week September 19-23, 2016 in a conference center in the woods close to Utrecht University, The Netherlands. The idea of this autumn school is to bring together a group of about 25 participants in a remote place in order to learn about more advanced topics in Algebraic Topology. The talks are aimed at (but not exclusively meant for) first and second year PhD students.

The school will consist of two mini-courses,

Robert R. Bruner: Calculations and higher products in Adams-type spectral sequences

Oscar Randal-Williams: Cohomology of moduli spaces of manifolds

In addition, there will be some talks providing background, and participants will have the chance to give short presentations about their own work.

We will be able to offer lodging and meals to accepted participants. The deadline for applications is 30 June. For more information, see http://www.math.ru.nl/~sagave/east2016/

We hope to see you in September.

Moritz Groth Ieke Moerdijk Thomas Nikolaus Steffen Sagave

### Non-commutative, derived and homotopical methods in geometry

Meeting Type: conference

Contact: see conference website

### Description

The aim of the conference is to bring together experts and graduate students/postdocs working in various modern approaches to geometry. Example topics would be:

- derived algebraic / symplectic geometry
- derived minimal model program
- homological projective duality
- homological mirror symmetry
- stability conditions
- non-commutative motives / non-commutative (co)homology theories
- generalizations of derived categories / cDG-categories / matrix factorizations
- operads / graph complexes / deformation theory
- non-commutative versions of classical varieties (del Pezzo, tori, K3, ...)

### BATMOBYLE: Bi-annual Algebraic and Tropical Meetings of Brown and YaLE

Meeting Type: Conference

Contact: see conference website

### Description

The BATMOBYLE is a vehicle for bringing together the algebraic and tropical geometry groups of Brown and Yale for a biannual day of talks alternating between the two universities.

### WIN-E2: Women in Numbers Europe-2

Meeting Type: collaborative conference

Contact: see conference website

### Description

The workshop will have the dual objectives of carrying out simultaneous research projects during the conference that result in on-going collaborations and mentoring junior women in mathematics. The conference will bring together established researchers, young faculty, and advanced graduate students.

The conference will highlight and advance the scientific goals and research agendas of women who are active and successful researchers in number theory. At the same time this framework will be used to help create a strong collaboration network for young female researchers coming into the field, connect them with important research directions and expand their network of collaborators and research mentors.

Rather than focusing on disseminating the results of established researchers, the workshop will focus on research projects that will be started during the week of the workshop and have the potential to result in on-going collaboration between the participants.

Prior to the workshop, each participant will be assigned to a working group according to her research interests, and each group will have one or two leaders who will suggest research projects and provide background reading for their groups. During the workshop groups meet and work on their project. At the end of the week, some members of each research group will describe their group's progress. We plan to publish a proceedings volume where working groups may publish resulting paper. The papers in this proceedings volume will be published after carefully refereed by the experts of the field. This is the same format that was used with great success during the WIN and WINE workshops held at BIRS and Luminy..

The total number of participants is expected to be approximately 45.

### Algebraic Geometry: Old and New

Meeting Type: conference

Contact: see conference website

### Description

The Workshop focuses on related old topics in algebraic geometry that are transformed by a recent new point of view, and new topics that have applications to old problems. Some of the themes that will feature are: Fano manifolds, special metrics and moduli; stable objects in derived categories; applications of mirror symmetry.

Invited speakers: Tom Coates (Imperial), Kento Fujita (Kyoto), Mark Gross (Cambridge), Mattias Jonsson (Michagan), Anne-Sophie Kaloghiros (Brunel), Dominic Joyce (Oxford), Conan Leung (CUHK), Eduard Looijenga (Utrecht and Tsinghua), Emanuele Macri (Northeastern), Yuji Odaka (Kyoto), Bernd Siebert (Hamburg), Cristiano Spotti (Cambridge), Jacopo Stoppa (Pavia), Song Sun (Stony Brook), Alessandro Verra (Roma 3), Xiaowei Wang (Rutgers), Jaroslaw Wisniewski (Warsaw), Chenyang Xu (Beijing),

### Rational Points and Algebraic Geometry

Meeting Type: conference

Contact: see conference website

### Description

A fundamental question in arithmetic geometry consists of studying rational and integral points on algebraic varieties. A fruitful approach to rational points is based on the local to global principle. More precise variants of the Hasse principle and weak approximation can be conveniently formulated in terms of the Brauer-Manin obstruction and its generalizations. The area has recently seen much progress due to applications of powerful results from additive combinatorics of Green and Tao, and results from analytic number theory. These works motivated a revision of the classical methods of fibration and descent that produced a host of new results for both rational points and zero-cycles. Other ideas and methods stem from Grothendieck section conjecture that exploits the rich structure of the étale algebraic fundamental group of hyperbolic varieties.

Much recent work has been devoted to rational points on homogeneous spaces of algebraic groups, where cohomological methods are very efficient. Another promising area is the arithmetically crucial class of K3 surfaces that occupy the middle ground between rational varieties and the varieties of gen- eral type. In the case of Kummer K3 surfaces a method of Swinnerton-Dyer relates the existence of rational points to the variation of the Selmer group in a family of twists of the associated abelian variety. In view of exciting recent results in the direction of the Birch and Swinnerton-Dyer conjecture (Bhar- gava and others) it is a good moment to explore their possible applications to rational points on Kummer surfaces.

A better understanding of K3 surfaces and their Brauer groups was made possible by the recent proof of the Tate conjecture for these surfaces in pos- itive characteristic. Another example of the dynamic interaction between arithmetic and algebraic geometry is the theory of rationally connected vari- eties over various ground fields. Other such examples include the recent proof of unirationality of all del Pezzo surfaces of degree 2 over arbitrary fields, ex- plicit construction of Brauer classes, applications of derived categories of coherent sheaves, Cox rings and their applications to universal torsors.

We plan to bring together experts in arithmetic geometry in a broad sense, including experts in algebraic geometry over non-closed fields, whose work has direct or indirect applications to rational points. We would like to summarize a very active period that this area has seen in 2012-2015 and discuss new avenues for future research. Participation of leading experts from different areas will be important for fostering a fruitful exchange of ideas and forming new collaborations.

Among others, the following topics will be considered :

- Hasse principle and weak approximation on higher dimensional varieties, descent and fibration method.
- Brauer groups of varieties and of their function fields, structure of the Brauer-Manin set.
- Existence of points on homogeneous spaces of algebraic groups.
- Links to abelian varieties, consequences of Tate conjecture.

Between 16 and 18 one hour talks will be scheduled (free afternoon on Wednesday, and at most one talk on Friday afternoon).

### Recent Developments on Elliptic Curves

Meeting Type: conference

Contact: see conference website

### Description

The last few years have witnessed a number of developments in the arithmetic of elliptic curves, notably the proof that there are positive proportions of elliptic curves of rank zero and rank one for which the Birch—Swinnerton-Dyer conjecture is true. The proof of this landmark result relies on an appealing mix of diverse techniques arising from the newly resurgent field of arithmetic invariant theory, Iwasara theory, congruences between modular forms, and the theory of Heegner points and related Euler systems. The purpose of this workshop is to survey the proof of this theorem and to describe the new perspectives on the Birch—Swinnterton-Dyer conjecture which it opens up.

Invited speakers: Mirela Ciperiani (Texas, Austin), Ellen Eischen (Oregon), Benedict Gross (Harvard), Wei Ho (Michigan), Antonio Lei (Laval), Chao Li (Columbia), Kartik Prasanna (Michigan), Victor Rotger (Catalunya), Ye Tian ( Chinese Academy of Sciences), Eric Urban (Columbia), Rodolfo Venerucci (Duisberg-Essen), Xin Wan (Columbia), Xiaoheng Jerry Wang (Princeton), Andrew Wiles (Oxford), Wei Zhang (Columbia)

## October 2016

### Québec/Maine Number Theory Conference

Meeting Type: conference

Contact: see conference website

### Description

In 1998, number theorists at Université Laval and the University of Maine founded the Maine/Québec Conference on Number Theory and Related Topics. Since then it has been held annually on a weekend in early Fall (except 2001, when the conference was cancelled due to the attacks that September). We invite number theorists and mathematicians in related areas from New England, eastern Canada, and beyond to speak about their research and discuss ideas for future work. Each year there is a change in venue: odd years at UMaine, even years at U. Laval.

### Special day on motivic integration and non-archimedean geometry

Meeting Type: Special day

Contact: Raf Cluckers, Pablo Cubides, Kien Nguyen

### Description

Five talks around motivic integration and non-archimedean geometry. Please visit the webpage for more information.

### Oberwolfach Seminar: Perfectoid Spaces

Meeting Type: graduate school

Contact: Kiran Kedlaya, Jared Weinstein

### Description

### Conference on 4-manifolds and knot concordance

Meeting Type: conference

Contact: see conference website

### Description

The goal of this conference is to bring together established and early-career researchers to discuss a range of topics from low-dimensional topology. It is part of the trimester programme on Topology at the Hausdorff Institute for Mathematics running from September-December, 2016.

Confirmed speakers:

R. Inanç Baykur (UMass Amherst)

Jae Choon Cha (POSTECH)

David Gabai (Princeton)

David Gay (UGA)

Robert Gompf (UT Austin)

Shelly Harvey (Rice)

Matt Hedden (MSU)

Jennifer Hom (Georgia Tech)

Adam Levine (Princeton)

Brendan Owens (Glasgow)

Daniel Ruberman (Brandeis)

Rob Schneiderman (CUNY)

### Configuration Spaces and Moduli Spaces in Homotopy Theory

Meeting Type: conference

Contact: see conference website

### Description

A conference on the occasion of Carl-Friedrich Bödigheimer's 60th birthday

Speakers:

- Tilman Bauer (KTH Stockholm)
- Michael Eisermann (Stuttgart)
- Hans-Werner Henn (Strasbourg)
- Meinard Müller (Erlangen-Nürnberg)
- Viktoriya Ozornova (Bonn)
- Constanze Roitzheim (Kent)
- Graeme Segal (Oxford)
- Ulrike Tillmann (Oxford)

Registration for the conference is now open, and a schedule is online. A limited amount of financial support is available; the deadline for application for financial support is August 31, 2016.

We have blocked a number of hotel rooms until the end on August; after that, finding a hotel room may become more difficult.

### Definability and Decidability Problems in Number Theory

Meeting Type: conference

Contact: see conference website

### Description

Hilbert’s tenth problem (H10 for short) asked for an algorithm to decide solvabil- ity of Diophantine equations in the integers. Building on work of M. Davis, H. Putnam and J. Robinson, Matiyasevich showed in 1970 that every recursively enumerable set can be realized as a Diophantine set, and therefore H10 has a negative answer. This result did not resolve the analogous decidability question for Q, other number fields, or their rings of integers. In 1949, using the first-order undecidability of Z (already known by then), Julia Robinson succeeded in showing that the full theory of Q was undecidable by constructing a first-order definition of Z in Q. Similarly, an existential definition of Z in Q would provide a negative solution to the ana- logue of H10 over Q. The search for such a definition or a proof that it does not exist is a major theme within the subject. In the fifties, Julia Robinson initiated the study of definability and decidability over number fields and infinite algebraic extensions of Q, while Raphael Robinson took the first steps towards the understanding of the first-order theory over function fields and analytic structures.

In the last 20 years or so, considerable progress has been achieved on these problems thanks to the discovery of striking connections with other fields of mathematics, such as algebraic ge- ometry, anabelian geometry, Nevanlinna theory and recursion theory. However, many funda- mental questions remain wide open due to our lack of understanding of Diophantine sets. This workshop will serve as an opportunity for researchers in related fields to bring together their ideas and expertise in order to make progress on these matters, and to make more widely known the techniques and recent developments in the area.

## November 2016

### Fields Institute Symposium: Manjul Bhargava

Meeting Type: conference

Contact: see conference website

### Description

The 2016 Fields Medal Symposium will be centered on the work of Manjul Bhargava (Fields Medal 2014), and its current and potential impact.

The scientific program is aimed at a wide audience, including graduate students, mathematicians in other research areas, and scientists who use mathematics in an important way. The public opening lecture of the Symposium (November 1, 2016) will feature a lecture for a general audience given by Manjul Bhargava. The Symposium will also have a special event for high school and undergraduate students. All events will be broadcast live online.

### AGNES (Algebraic Geometry Northeastern Series)

Meeting Type: conference

Contact: see conference website

### Description

AGNES is a series of weekend workshops in algebraic geometry. One of our goals is to introduce graduate students to a broad spectrum of current research in algebraic geometry. AGNES is held biannually at the participating universities in the Northeast.

### Texas Geometry and Topology Conference

Meeting Type: conference

Contact: see conference website

### Description

The 56th meeting of the Texas Geometry and Topology Conference will be held at Texas A&M University, November 4-6, 2016.

Speakers

- Anna Marie Bohmann, Vanderbilt
- Robert Hardt, Rice University
- Vaughan Jones, Vanderbilt
- Niky Kamaran, McGill
- Shrawan Kumar, UNC Chapel Hill
- Rafe Mazzeo, Stanford University
- Emmy Murphy, MIT
- Thomas Schick, U. Goettingen

This conference is supported by the National Science Foundation and Texas A&M University. There are no registration fees. Everyone is welcome. Some support is available. Graduate students, post-docs, junior faculty, women, minorities, and persons with disabilities are especially encouraged to participate and to apply for support. For conference information, see the conference web page at http://www.math.tamu.edu/conferences/tgtc/2016/ .

### Analytic Number Theory

Meeting Type: conference

Contact: see conference website

### Description

### Homological Mirror Symmetry: Methods and structures

Meeting Type: workshop

Contact: see conference website

### Description

This is one of two workshops during a year-long program.

During the 2016-17 academic year, the School will have a special program on Homological Mirror Symmetry. Paul Seidel, from MIT, will be the Distinguished Visiting Professor. Maxim Kontsevich, from IHES, will be attending the program for one month during each of the fall and spring terms (from mid-October to mid-November, and for the month of February). Denis Auroux, from UC Berkeley, will be attending for the spring term.

### Virginia Topology Conference 2016: Mapping class groups and low dimensional topology

Meeting Type: conference

Contact: see conference website

### Description

### Workshop on W-algebras

Meeting Type: workshop

Contact: Peter McNamara, Arun Ram, Oded Yacobi

### Description

Overview: Our goal is to bring together postgraduate students, postdoctoral researchers, and faculty to participate in a week-long intensive exploration of W-algebras and related geometric and representation theoretic topics.

The workshop will be led by Tomoyuki Arakawa and Anne Moreau, renown experts in this area. The format is roughly "Talbot Style". This means that the mentors and organisers will design a series of 15-20 lectures. Several of these lectures will be given by the mentors and other experts in attendance, but the majority of talks will be given by the participants. There will also be problem sessions and time for casual discussion among the participants.

Agenda:

```
Day 1: Overview of theory and the goals of the workshop. Introduction to affine Lie algebras, and their representations.
Day 2: Vertex algebras and Zhu functors, Zhu's C2 algebra and the canonical filtration.
Days 3/4: BRST cohomology, quantum Hamiltonian reduction, finite and affine W-algebras
Days 4/5: Current topics such as rationality of W-algebras, the geometry of jet schemes, and chiral differential operators on groups.
```

A syllabus with bibliography will be posted here soon.

Funding: There will be limited funding available for travel and accommodations for participants; the amount of funding will depend on how many people register. We do not expect to be able to fund travel for participants from outside Australia.

Registration: Send an email to Oded Yacobi (oded.yacobi@sydney.edu.au) by July 30 with the following information

```
Name
University affiliation and status (postgraduate student, postdoc, etc...)
Research Interests and any other comments you may have. In particular let us know if you are requesting funding, and specifically how much you require.
```

The workshop aims to gather participants from wide background and all graduate educational levels, so applicants need not be experts in the field. We are also committed to promoting diversity in mathematics, so we especially encourage women and minorities to apply.

## December 2016

### 4th Metro Area Differential Geometry Seminar (MADGUYS)

Meeting Type: conference

Contact: see conference website

### Description

4th Metro Area Differential Geometry Seminar (MADGUYS), organized jointly by Howard University, Johns Hopkins University and the University of Maryland.

Speakers:

Sun-Yung Alice Chang (Princeton) Jake Solomon (Hebrew/IAS) Steve Zelditch (Northwestern)

All are invited, there are no registration fees. Young mathematicians and students are especially encouraged to attend.

Yanir Rubinstein

### Global Langlands correspondence

Meeting Type: collaborative research conference

Contact: see conference website

### Description

This workshop, sponsored by AIM and the NSF, This workshop, sponsored by AIM and the NSF will be devoted to the study of V. Lafforgue's groundbreaking work on the automorphic implies Galois direction of the Langlands conjecture for reductive groups over global function fields.

The primary goals will be:

```
To give a detailed exposition of the proof of V. Lafforgue's theorem.
Present related developments such as the Yun-Zhang proof of the Gross-Zagier type formula for function fields, the Genestier-Lafforgue construction for the local Langlands correspondence, and the connections with Fargues-Fontaine curve.
Discuss potential further developments that the ideas from V. Lafforgue's work lead us to.
```

The workshop will differ from typical conferences in some regards. Participants will be invited to suggest open problems and questions before the workshop begins, and these will be posted on the workshop website. These include specific problems on which there is hope of making some progress during the workshop, as well as more ambitious problems which may influence the future activity of the field. Lectures at the workshop will be focused on familiarizing the participants with the background material leading up to specific problems, and the schedule will include discussion and parallel working sessions.

## January 2017

### Unlikely Intersections, Heights, And Efficient Congruencing

Meeting Type: long-term research program

Contact: see conference website

### Description

In recent years there has been a great deal of success in applying methods of analytic number theory to questions of arithmetic geometry. This conference will focus on three topics: o-minimality, heights, and "efficient congruencing". The first two topics have been very useful in attacking conjectures regarding "special" points such as the Andre-Oort conjecture, or more generally the Zilber-Pink conjecture, while the third establishes the Hasse principle for certain varieties associated with translation-dilation invariant systems at the threshold of the convexity barrier.

This program will include several conferences, to be posted separately.

### Atelier PARI/GP

Meeting Type: software development workshop

Contact: see conference website

### Description

This workshop is organized to discuss the current and future development of the PARI/GP system. Anyone interested in helping out is welcome !

The workshop will include

(1) Short status reports on the current development projects.

(2) Tutorial sessions.

(3) Brainstorming sessions, to spell out and discuss ideas about the system development: new features, new algorithms, improving old implementations, bug fixes, extensions to GP syntax, documentation overhaul ...

(4) Coding sessions: inspired by (3), but bring also your own problems !

Please share your ideas for Discussion topics (3) or Coding sessions (4) with the development mailing list pari-dev@pari.math.u-bordeaux.fr. Feel free to suggest subjects for the Tutorial sessions (2).

### QUANTMOD-Quantization and Moduli Spaces

Meeting Type: conference

Contact: see conference website

### Description

The purpose of this workshop is to bring together mathematicians working in the field of moduli spaces of geometric and algebraic structures which might be related to mathematical aspects of quantization.

Confirmed speakers include:

Jorgen Andersen Philip Boalch Vladimir Fock Jochen Heinloth Lotte Hollands Motohico Mulase Christian Pauly Du Pei Nicolai Reshetikhin Pavel Safronov Armen Sergeev Oleg Sheinman Jörg Teschner Richard Wentworth

The organizers:

Jorgen Andersen (Aarhus University) Ozgur Ceyhan (Luxembourg) Francois Petit (Luxembourg) Martin Schlichenmaier (Luxembourg)

### The AIMS-Stellenbosch Number Theory Conference 2017

Meeting Type: Conference

Contact: Florian Breuer, Barry Green, Patrick Rabarison

### Description

This international conference will be hosted at the Department of Mathematical Sciences of the University of Stellenbosch, as well as at the African Institute for Mathematical Sciences, South Africa and the goal of this conference is to give a broad perspective of areas of modern number theory and to highlight some recent advances. This conference is one of the biennial Number Theory meetings which has been held at Stellenbosch University since 1997.

### Analytic Number Theory

Meeting Type: long-term research program

Contact: see conference website

### Description

Analytic number theory, and its applications and interactions, are currently experiencing intensive progress, in sometimes unexpected directions. In recent years, many important classical questions have seen spectacular advances based on new techniques; conversely, methods developed in analytic number theory have led to the solution of striking problems in other fields.

Recent advances in analytic number theory have had repercussions in various mathematical subjects, such as harmonic analysis (including the Langlands programme), ergodic theory and dynamics (especially on homogenous spaces), additive and multiplicative combinatorics and theoretical computer science (in particular, through the theory of expander graphs).

The MSRI semester program in Spring 2017 will focus on the topic of Analytic Number Theory, with workshops and other activities focused on the most impressive recent achievements in this field. We wish not only to give the leading researchers in the area further opportunities to work together, but more importantly to give young people the occasion to learn about these topics, and to give them the tools to achieve the next breakthroughs.

This program includes several conferences, to be posted separately.

### Algebraic Geometry and Complex Geometry

Meeting Type: conference

Contact: see conference website

### Description

The aim of this conference is to get together algebraic geometers and complex geometers, around recent topics of interest. Participants are mostly researchers from european universities but everybody is welcome to participate (please note that the number of participants is limited).

It is organised by the GDR 3064 Geometrie Algebrique et Geometrie Complexe (Research Group of the CNRS, French Scienti c Reseach Comity).

Mornings are devoted to 5 mini-courses, given by experts of important new developpments.

Topics covered are :

- Dynamical degree of birational transformations of surfaces, given by Jérémy Blanc (Universität Basel, Suisse).
- Gromov-Witten invariants, Mirror symmetry and degenerations of Calabi-Yau's, given by Mark Gross (University of Cambridge, Angleterre).
- Berkovich spaces, degenerations of algebraic varieties, skeleton, given by Johannes Nicaise (University of Leuven, Belgique).
- Stable rationality, given by Alena Pirutka (Ecole Polytechnique).

The afternoons are devoted to more specialized 50 minutes talks. They will be chosen by the scientific committee 3 months before the conference. A short talks (10 minutes) session will be also organized during the conference to enable participants to talk about their works or some open questions.

## February 2017

### Connections for Women: Analytic Number Theory

Meeting Type: conference

Contact: see conference website

### Description

This workshop will consist of lectures on the current state of research in analytic number theory, given by prominent women and men in the field. The workshop is open to all graduate students, post-docs, and researchers in areas related to the program; it will also include a panel discussion session among female researchers on career issues, as well as other social events

### Introductory Workshop: Analytic Number Theory

Meeting Type: conference

Contact: see conference website

### Description

The introductory workshop will present, through short minicourses and introductory lectures, the main topics that will be the subject of much of the Analytic Number Theory Programme at MSRI. These topics include the theory of multiplicative functions, the theory of modular forms and L-functions, the circle method, sieve methods, and the theory of exponential sums over finite fields

## March 2017

### Arizona Winter School: Perfectoid Spaces

Meeting Type: school

Contact: Bryden Cais, Kiran S. Kedlaya

### Description

### New Trends in Arithmetic and Geometry of Algebraic Surfaces

Meeting Type: conference

Contact: see conference website

### Description

The interplay of arithmetic and geometry has been a driving force in the study of algebraic curves, culminating in Faltings' finiteness theorem for rational points on curves of general type. For algebraic surfaces, such deep structures are mostly still conjectural, but great progress has been made in recent years following this leitmotif. The most spectacular achievement of the last few years might have been the proof of the Tate conjecture for K3 surfaces due to Madapusi, Maulik and Charles. However, this is only the brightest star among a plentitude of amazing results manifesting the intertwining of arithmetic and geometry (and also initiating new directions, for instance in dynamics). In the following, we shall highlight a few streams of research which we consider of utmost relevance for our workshop.

K3 surfaces are the most prominent player in our story, notably because of their versatility and also because of their relevance to neighboring areas such as differential geometry and physics. Beyond the breakthrough on the Tate conjecture, there have several further important developments on K3 surfaces in the last few years:

- Good reduction and Honda-Tate (Matsumoto, Liedtke, Taelman);
- unirationality (Liedtke, Lieblich);
- moduli of K3 surfaces, in particular relating to double sextics, elliptic K3 surfaces and degenerations of K3 surfaces and their relation with arithmetic (Alexeev, Brunyate, Elkies, Hacking, Kumar, Laza, Thompson);
- dynamics (Blanc, Cantat, Esnault, McMullen, Oguiso, Sch\"utt).

We would also like to emphasize the experimental approach towards arithmetic and geometry of K3 surfaces (closely related to the developments sketched above). As an illustration, consider the important problem how the Picard number of a K3 surface X defined over some number field behaves under reduction. By work of Li and Liedtke, this has important implications for rational curves on X, since an infinitude of places with the Picard number increasing upon reduction can be used to produce an infinitude of rational curves on the original surface. For odd Picard number, this crucial reduction property follows from the Tate conjecture, but for even Picard number, it seems only to be known in special cases such as Kummer surfaces of product type (Charles). This is where experiments using zeta functions (Elsenhans, Jahnel) and p-adic cohomology (Costa, Harvey) enter. We expect that this area of ideas might see important progress until 2017.

Enriques surfaces are closely related to K3 surfaces, yet they come with intriguing subtleties which have been a driving force for the investigation of the deep structures of algebraic surfaces. Historically, they have been among the first surfaces (together with Godeaux surfaces) which were shown to be non-rational despite sharing the Q -cohomology with the projective plane blown up in a finite number of points (which thus led Castelnuovo to formulate his rationality criterion in terms of the second plurigenus). From today's perspective, this special role of Enriques surfaces manifests itself prototypically in the study of finite group actions. For instance, there are complex Enriques surfaces with finite groups of automorphisms acting trivially on cohomology (with Q or even Z

coefficients). In a similar direction, Enriques surfaces with finite automorphism group are very special; both properties are completely contrary to what happens for K3 surfaces. We would like to highlight the following recent projects (partly ongoing):

- Semi-symplectic finite group actions on Enriques surfaces and their relation to the Mathieu group M12
- Moduli of polarized complex Enriques surfaces (Gritsenko, Hulek)
- Enriques surfaces in characteristic 2 (Katsura, Kondo, Liedtke, Shepherd-Barron)

Surfaces of general type form the most mysterious class of algebraic surfaces. There are still many open problems about them, such as the classification of surfaces of general type and their moduli spaces, and often rather surprising results! We anticipate that the workshop will feature lectures on algebraic surfaces of general type, but from today's perspective it is not so clear in which direction research on surfaces of general type will head in the next years. Therefore, next to above classical topic, we only emphasize the central role that derived categories have lately played for surfaces of general type, in particular for Godeaux surfaces, Burniat surfaces and Barlow surfaces. Notably, there have been deep results on exceptional collections and phantom categories (Alexeev, B\"ohning, Katzarkov, Orlov, Sosna).

For the precise conference program, we will also take into account the latest developments that might succeed this proposal, thus giving an up-to-date account of the arithmetic and geometry of algebraic surfaces.

The conference is meant to foster the interactions between experts working on algebraic surfaces. The inspiring atmosphere of the BIRS will allow them to share their ideas and latest results, and hopefully it will initiate new collaborations and programs. At the same time, we hope to attract many junior participants from Canada and the United States and abroad and give them the opportunity to gain insight into the latest developments in algebraic and arithmetic geometry and learn about new methods directly from the inventors.

In particular we hope to attract many female participants. Among some 75 potential participants as listed below, we are targeting 19 female researchers at all career stages. Thus we are optimistic to have the community of women working on the topic of the conference represented very well at BIRS.

### Homological Mirror Symmetry: Emerging developments and applications

Meeting Type: workshop

Contact: see conference website

### Description

This is one of two workshops during a year-long program.

During the 2016-17 academic year, the School will have a special program on Homological Mirror Symmetry. Paul Seidel, from MIT, will be the Distinguished Visiting Professor. Maxim Kontsevich, from IHES, will be attending the program for one month during each of the fall and spring terms (from mid-October to mid-November, and for the month of February). Denis Auroux, from UC Berkeley, will be attending for the spring term.

### p-adic Analytic Geometry and Differential Equations

Meeting Type: conference

Contact: see conference website

### Description

The subject of p-adic analytic geometry has been booming in the last years, as regards foundational matters as well as applications. In particular, the use of fine methods from analytic geometry in the field of p-adic differential equations and D-modules has recently led to significant progress. The aim of the conference is to bring together mathematicians from various areas around those themes, experts as well as new-comers who would like to incorporate them into their research. The atmosphere at CIRM will encourage fruitful discussion and collaboration between the communities in presence.

## April 2017

### Arbeitsgemeinschaft: Higher Gross Zagier Formulas

Meeting Type: learning conference

Contact: see conference website

### Description

The “Arbeitsgemeinschaft Deninger-Faltings” is a series of meetings in Oberwolfach taking place each year in spring and fall. The topic of the next meeting is chosen by democratic vote. The stay at Oberwolfach is free.

The Arbeitsgemeinschaft (study group) mainly addresses to non-specialists who want to broaden their outlook on mathematics and to young mathematicians who wish to enter a field for future research. Experts are also welcome. The idea is “learning by doing” – similar to the Seminaire Bourbaki. Participants have to volunteer for one of the lectures described in the program of the Arbeitsgemeinschaft. After the deadline for application the organizers choose the actual speakers to give them enough time to understand the subject and to prepare for their lectures. Please see our website www.mfo.de for further details.

The MFO is grateful to Prof. Dr. Christopher Deninger (Münster) and Prof. Dr. Gerd Faltings (MPI Bonn) who lead the Arbeitsgemeinschaft.

### Hodge theory, Stokes Phenomenon and Applications

Meeting Type: conference

Contact: see conference website

### Description

The project of this conference takes place in the framework of the SISYPH program, an joint ANR (France) -DFG (Germany) program. It is intended to give the state of the art concerning the results obtained during the 3-year period of SISYPH, both by SISYPH members and by other researchers who brought a substantial contribution to the following topics:

- Mirror symmetry as an efficient tool for the computation of various Gromov-Witten invariants for smooth algebraic varieties and orbifolds.
- Irregular singularities of linear differential equations in all dimensions, from the point of view of D-modules and of isomonodromic deformations.
- Hodge-theoretical properties for such differential systems.

### Special Trimester on Representation Theory of Reductive Groups Over Local Fields and Applications to Automorphic forms

Meeting Type: Special trimester

Contact: Dmitry Gourevitch, Avraham Aizenbud, Erez Lapid, Joseph Bernstein

### Description

### O-Minimality and its Applications to Number Theory and Analysis

Meeting Type: invitational conference

Contact: see conference website

### Description

```
Organisers
```

Tobias Kaiser, Passau

Jonathan Pila, Oxford

Patrick Speissegger, Hamilton

Alex Wilkie, Manchester

## May 2017

### Recent developments in analytic number theory

Meeting Type: conference

Contact: see conference website

### Description

This workshop will be focused on presenting the latest developments in analytic number theory, including (but not restricted to) recent advances in sieve theory, multiplicative number theory, exponential sums, arithmetic statistics, estimates on automorphic forms, and the Hardy-Littlewood circle method.

### K-Theory and Related Fields

Meeting Type: long-term research program

Contact: see conference website

### Description

Mathematicians from many areas are interested in K-theory, and they all look at it from their own perspective. The program modestly plans to support research in several of the many sub-areas of K-theory and to promote synergies between the different, but often overlapping, areas. The program will involve the following elements:

A summer school directed at PhD students and young postdocs, scheduled for the week June 19 - June 23.

Three major workshops, as follows:

```
K-theory in algebraic geometry and number theory, May 15 - May 19,
K-theory and related fields, June 26 - June 30,
K-theory in topology and non commutative geometry, August 21 - August 25.
```

Informal short courses and learning seminars, in between the major workshops, to help those working in one aspect of K-theory learn about developments and techniques in other areas.

### Low-Dimensional Topology and Geometry

Meeting Type: conference

Contact: Spencer Dowdall

### Description

### Modular Forms are Everywhere

Meeting Type: conference

Contact: see conference website

### Description

### Harmonic Analysis and the Trace Formula

Meeting Type: invitational conference

Contact: see conference website

### Description

```
Organisers
```

Werner Müller, Bonn

Sug Woo Shin, Berkeley

Birgit Speh, Ithaca

Nicolas Templier, Ithaca

### Arithmetic Aspects of Explicit Moduli Problems

Meeting Type: conference

Contact: Nils Bruin, Kiran Kedlaya, Samir Siksek, John Voight

### Description

Explicit work on moduli problems has yielded powerful new theorems in arithmetic geometry that have eluded a purely theoretical approach. The moduli approach converts the problem of classifying objects of arithmetic interest into the problem of studying rational points on varieties, to which the methods of algebraic and arithmetic geometry may be applied. There is an active community, including many young researchers, dedicated to explicitly studying rational points. This workshop will bring together researchers working on explicit moduli problems with those working on rational points to establish collaborations and stimulate further research.

In addition to providing a platform for communicating new developments, the workshop will give young researchers the opportunity to gain a strong foundation in moduli spaces going beyond those traditionally studied computationally.

## June 2017

### Journées Algophantiennes Bordelaises 2017

Meeting Type: conference

Contact: see conference website

### Description

The conference will be dedicated to algorithmic solutions of Diophantine equations. This rapidly developping field experienced remarkable progress during the last years. Novel methods were introduced and new spectacular applications were given, the proof of the modularity conjecture over real quadratic field being a notable example.

The invited speakers include

```
Nuno Freitas* (Vancouver)
Rafael von Känel (Princeton)
Hendrik W. Lenstra (Leiden)
Jean-François Mestre (Paris VII)
Samir Siksek (Warwick)
Michael Stoll (Bayreut)
```

### Arakelov geometry and diophantine applications

Meeting Type: Summer School

Contact: Huayi Chen, Emmanuel Peyre, Gaël Rémond

### Description

Main Speakers:

- Fabrizio Andreatta
- Pascal Autissier
- Jean-Benoît Bost
- Jan Bruinier
- José Ignacio Burgos Gil
- Antoine Chambert-Loir
- Huayi Chen
- Romain Dujardin
- Gerard Freixas i Montplet
- Éric Gaudron
- Emmanuel Peyre
- Per Salberger
- Christophe Soulé

### Arithmetic, Geometry, Cryptography and Coding Theory

Meeting Type: conference

Contact: see conference website

### Description

We wish to organize a conference involving the interactions between theoretical mathematics, as number theory and algebraic geometry, with information theory and communication, as coding theory and cryptography. This conference would be the sixteenth edition of a conference which began in 1987 with the best specialists of the field. The students and young researchers are also invited to collaborate with seniors researchers.

The talks will concern new theoretical mathematical results but also presentation of effective or algorithmic results. The conference will be on a week (five days) with the following schedule : — One or two plenary talks each day at the beginning of the session given by high level researchers. Our hope is that a part of these talks will be given by researchers not in our community in order to present new directions and new applications of arithmetic and/or algebraic geometry. — The other talks will be specialized short ones.

At the end of the conference, we plan to publish proceedings in the Contemporary Mathematics collection of the AMS.

Topics of the Conference — Number theory, asymptotic behavior of families of global fields and statistic arithmetic. — Arithmetic geometry, algebraic curves over finite fields or over number fields, Abelian varieties : point counting methods, theoretical, effective and algorithmic aspects in arithmetic geometry. — Error correcting codes, algebraic codes, geometric codes on algebraic curves or on high dimensional varieties, algebraic decoding algorithms, etc. — Cryptography, elliptic curves and Abelian varieties : discrete logarithm problem, pairings, explicit computing of isognies, invariant theory and curves classification. — Boolean functions, bent functions, APN functions : construction of families of bent functions and hyperbent functions, etc.

### Applied Topology in Bedlewo

Meeting Type: conference

Contact: Zbigniew Błaszczyk

### Description

This will be the second edition of a conference that took place in Bedlewo in July 2013.

Similarly as before, our aim is to bring together scientists from all over the world working in various fields of applied topology, including:

- topological robotics,
- topological methods in combinatorics,
- random topology,

as well as topological data analysis, with emphasis on:

- neurotopology,
- materials analysis,
- computational geometry, and
- multidimensional persistence.

## July 2017

### Diophantine Approximation and Algebraic Curves

Meeting Type: conference

Contact: see conference website

### Description

The main objectives of the proposed conference on Diophantine approximation and algebraic curves will be the study of rational and integral solutions to Diophantine equations and inequalities and the connection with algebraic curves. Since early last century and even before, Diophantine approximation has played a large role in the study of solutions to Diophantine equations, a very old and influential topic in number theory. Thue's famous theorem was subsequently refined and expanded upon, culminating in Roth's celebrated result and his winning of the Fields medal. Shortly after that, Baker's ``effective" methods (earning him a Fields medal) were added into the mix. Concurrently with all this, the more systematic and algebraic development of the theory of curves (as opposed to the more ad hoc methods employed previously) was championed by the likes of Artin, Chevalley and Weil. A great achievement here was Falting's famous proof of Mordell's conjecture (yet another Fields medal for these areas).

Clearly these topics have intrigued mathematicians for a very long time. The techniques applied have been varied, but machinery originating here has also found use in a wide variety of fields. To mention just one example, it was noted over a century ago that the theories being developed over the rational number field applied equally well to fields of transcendence degree one over a finite field ("function fields"). Now curves defined over finite fields and their corresponding function fields are a cornerstone of modern computer coding theory.

During the proposed conference, experts in the areas of linear forms in logarithms, heights, the subspace theorem, the connections between Diophantine approximation and Nevanlinna theory, and others will come together with those in elliptic curves, abelian varieties and other closely related subjects in algebraic geometry. It is hoped that new light may be shed and insight gained into questions such as the existence of elliptic curves of large rank, the complete solution to certain families of equations, and deeper connections between the approximation of algebraic numbers and algebraic properties of curves and surfaces.

### Homotopy Theory: tools and applications

Meeting Type: conference

Contact: Daniel Davis, Mark W. Johnson, Charles Rezk, Vesna Stojanoska

### Description

Preliminary Announcement.

The aim of the conference is to survey recent advances in the fundamental tools of homotopy theory (including abstract homotopy theory, equivariant homotopy, obstruction-theoretic methods), to highlight future directions of research, including applications to chromatic homotopy theory, motivic homotopy theory, and derived algebraic geometry.

Speakers:

Agnes Beaudry, University of Chicago

Mark Behrens, University of Notre Dame

David Blanc, University of Haifa

Anna Marie Bohmann, Vanderbilt University

Hans-Werner Henn, University of Strasbourg

Kathryn Hess, EPFL

Mike Hopkins, Harvard University

Marc Hoyois *, MIT

Rick Jardine, University of Western Ontario

Magdalena Kedziorek, EPFL

Nitu Kitchloo, Johns Hopkins University

Tyler Lawson, University of Minnesota

Jacob Lurie, Harvard University

Haynes Miller, MIT

Jack Morava, Johns Hopkins University

Doug Ravenel, University of Rochester

Birgit Richter, University of Hamburg

Brooke Shipley, University of Illinois at Chicago

Zhouli Xu, University of Chicago

Inna Zakharevich, University of Chicago

*to be confirmed

Others interested in speaking are encouraged to contact the organizers.

Further information will become available at the conference website

http://www.math.illinois.edu/homotopy2017/index.html

and

questions to the conference organizers are welcome at

homotopy2017@math.uiuc.edu

Organizers:

Daniel Davis, University of Louisiana at Lafayette

Mark W. Johnson, Penn State Altoona

Charles Rezk, University of Illinois at Urbana-Champaign

Vesna Stojanoska, University of Illinois at Urbana-Champaign

### Iwasawa 2017

Meeting Type: conference

Contact: see conference website

### Description

This is the seventh Iwasawa conference following conferences in Besancon, Limoges, Irsee, Toronto, Heidelberg, and London.

### SIAM Conference on Applied Algebraic Geometry

Meeting Type: conference

Contact: see conference website

### Description

## August 2017

### WIN4: Women in Numbers 4

Meeting Type: conference

Contact: see conference website

### Description

The first Women in Numbers workshop was held at BIRS in 2008, with the explicit goals of highlighting the research of female number theorists and increasing the participation of women in number theory research. In their original proposal, the organizers cited the lack of representation of women in major institutions and at major international conferences.

Since that first proposal, 84 different women have participated in three WIN conferences at BIRS, with an additional 40 participants at the Women in Numbers -- Europe conference held at CIRM in Luminy. The number of female number theorists is steadily growing. The visibility of the WIN conferences --- due both to the community that has developed and the high quality of research output from these workshops --- has helped to raise awareness in the broader community of the important contributions made by these researchers. In the years since the first WIN conference, there has been a steady trend of increasing representation at these major conferences as shown in Table~???

.

\begin{table}[b] \begin{tabular}{l|c||cc}

Algebraische Zahlentheorie & 2005: 1/19 & 2011: 3/19 & 2014: 5/19 \ Algorithmic Number Theory Symposium & 2006: 4/39 & 2012: 5/25 & 2014: 4/31 \ Canadian Number Theory Association (plenary)& 2006: 0/15 & 2012: 1/10 & 2014: 2/10 \ Explicit Methods in Number Theory & 2005: 1/30 & 2013: 4/24 & 2015: 4/15 \ Journ\'ees Arithm\'etiques & 2007: 0/12 & 2015: 3/12&\ \end{tabular}\caption{Number of female speakers in past number theory conferences}\label{table:NumSpeakers} \end{table}

It is difficult to know exactly how much of this increase is due (directly or indirectly) to WIN. It is certainly worth noting that many of the invited speakers at these conferences were participants in one or more of the WIN conferences. Even more importantly, WIN alumnae are encouraged to organize their own conferences and to participate in scientific boards for major conferences. It has been well-documented that when women are included as conference organizers, more women are invited as speakers and participants (see, for instance, the statistics collected by the AMS).

Many participants told us that the previous WIN conferences ignited their careers. For the graduate students, it was eye-opening to see the level of intensity of the projects. Junior faculty, both postdocs and assistant professors, seemed to gain the most from the WIN experience. Several mentioned that the WIN projects introduced them to completely new directions for research. Faculty with high teaching loads appreciated the chance to focus on research. For group leaders, it was a formative experience to find new research problems and direct a research group.

In addition, many women who attended the first WIN conference as graduate students and postdocs (including three of the four organizers of the proposed workshop) have gone on to tenure track positions at major research universities, including University of California at San Diego, University of Colorado at Boulder, University of Hawaii at Manoa, University of Lethbridge, University of Oregon, and University of Washington. Several who participated as postdocs or assistant professors now hold tenured positions.

Another major indicator of the success of the WIN conferences is the publication output: three proceedings volumes containing a total of 36 papers (including some survey papers), as well as more than 10 journal articles published elsewhere. This far surpasses the output of a typical research workshop or graduate focused workshop such as Arizona Winter School.

Less tangible but equally important outcomes include the lasting bonds formed between beginning researchers and their mentors, and the invigorating effect of the conferences on this mathematical community. WIN created a new model of working research conference designed to build networks of female researchers. Inspired by the success of WIN conferences, women in other fields have organized similar conferences at math institutes over the past few years, each focused on building collaboration groups consisting of senior and junior women in a given area. These include: Algebraic Combinatorixx and Women in Topology (WIT) at BIRS; Women in Shape (WiSh) at IPAM; and two Women in Applied Math conferences at IMA, Dynamical Systems with Applications to Biology and Medicine (WhAM!) and Numerical PDEs and Scientific Computing (WhAM2!). Each of these conferences has resulted in new, high-quality mathematics research as well as lasting collaborations among attendees.

These are positive changes, but our work is not done. Visibility of women at international number theory workshops and conferences, though increasing, continues to be low, with percentages of female speakers rarely exceeding 20\%. Women are still underrepresented in major research universities, especially at the most prestigious institutions. Women researchers receive disproportionately less grant money from the NSF than their male peers. It is imperative that we continue to build on the success of the WIN and other research collaboration conferences for women, creating supportive networks for women at the early stage of their careers.

In recognition of these tremendous successes and the continued need, the National Science Foundation has recently awarded the AWM a $750,000 ADVANCE grant to spread and support the WIN model for women in research in mathematics to all fields of mathematics. This five-year grant will provide funding for supporting the network of research collaboration conferences for women, including some funding for participant travel. Also, Springer has established the Association for Women in Mathematics series, focusing on the groundbreaking work of women in mathematics past, present, and future. The series already has nine planned titles, including Proceedings volumes for both the Women in Numbers 3 and the Women in Numbers -- Europe conferences.

The proposed workshop aims to continue this important work, promoting research and leadership among female number theorists within a supportive environment. The specific goals of the workshop are:

```
to generate research in significant topics in number theory;
to broaden the research programs of female number theorists, especially pre-tenure;
to train female graduate students and postdocs in number theory, by providing experience with collaborative research and the publication process;
to strengthen and extend a research network of potential collaborators in number theory and related fields;
to enable female faculty at small colleges to participate actively in research activities including mentoring graduate students and postdocs; and
to highlight research activities of women in number theory.
```

The focus of the workshop is on supporting new research collaborations within small groups. Before the workshop, each participant will be assigned to a working group according to her research interests. Each group will have one or two leaders chosen for their skill in both research and communication. Prior to the conference, these leaders will design projects and provide background reading and references for their groups. At the conference, there will be some talks, but ample time will be dedicated to working groups, particularly in the afternoons and evenings. Project leaders will direct their group's research effort and provide mentorship. At the end of the week, members of each research group will describe their group's progress on the research problems as well as future directions for the work.

The scientific themes of the workshop will include Apollonian circle packings, arithmetic dynamics, arithmetic statistics, and nonarchimedean tools. The broad scope of the WIN conferences encourages the leaders to find connections between their topics. For example, at WIN2, unexpected synergy emerged between several groups focused on surfaces (reduction of abelian surfaces, modular forms on K3 surfaces, zeta functions of surfaces, etc).

We have already identified potential project leaders (listed below) for each of these exciting topics. Several (but not all) of these researchers have participated in past WIN conferences. An asterisk (*) indicates demonstrated interest in attending WIN4 and leading a project.

```
Apollonian circle packings.} {\it Potential leaders: Elena Fuchs*, Hee Oh, and Katherine Stange*.
Apollonian circle packings arise from the seemingly simple process of iteratively filling in the gaps between triples of mutually tangent circles with pairs of circles tangent to all three of them. The study of these designs dates back at least to Apollonius, circa 200 BC. A series of articles by Graham et al. in 2005--2006 explored surprisingly deep and interesting group theoretic and number theoretic connections to this classical geometric construction and set off a surge of recent activity in the area, including the 2014 European Women in Mathematics summer school.
Arithmetic dynamics:} {\it Potential leaders: Holly Krieger* and Michelle Manes*.
Arithmetic dynamics is concerned with the behavior of the forward orbit of a point under ϕ:X→X
```

a morphism of an algebraic variety X. In the early 1990s, Call and Silverman introduced the canonical height of a dynamical system as an analog of the N\'{e}ron-Tate canonical height on an abelian variety. Like N\'{e}ron-Tate heights, h^ϕ is nonnegative-valued, and zero only at points with finite forward orbit, the dynamical analogs of torsion points. Together with work of Morton and of Morton and Silverman on dynamics over number fields, the introduction of canonical heights breathed new life into a subject that had lay all-but-dormant since the 1940s. This foundation paved the way for an ongoing flurry of activity in the 2000s and 2010s, and the subject has proven to be a rich one, generating numerous deep questions, examples of fascinating phenomena, and powerful machinery.

Arithmetic statistics:} {\it Potential leaders: Chantal David* and Melanie Matchett Wood*. The burgeoning field of arithmetic statistics lies at the intersection of arithmetic algebraic geometry, automorphic forms and representation theory, analytic number theory, and statistics, including statistical heuristics obtained from the contemporary work regarding random matrices. Recent growth in our understanding of the analytic properties of L-functions has led to profound applications regarding statistics related to arithmetic problems, including Bhargava and others' bounds on the average rank of elliptic curves. This field is the center of much excitement in number theoretic research, and has been the focus of a 2011 semester-long program at MSRI, a 2012 MRC workshop, and the 2014 Arizona Winter School.

Nonarchimedean tools:} {\it Potential leaders: Jennifer Balakrishnan* and Julia Gordon*. Nonarchimedean tools --- in particular, methods from p-adic analysis and geometry --- have inspired a number of beautiful results in recent years. Coleman used p-adic integration to re-interpret the method of Chabauty to find rational points on curves, and variations of this technique have been used to produce results in the arithmetic statistics of higher genus curves. The program of Kim aims to give a nonabelian analogue of the Chabauty-Coleman method on the way to an explicit Faltings' theorem on finiteness of rational points. Scholze's work on perfectoid spaces has revolutionized p-adic geometry, leading to a number of striking results in just the last few years in p

```
-adic Hodge theory and the Langlands program.
```

Current and past organizers may also lead projects: Matilde Lal\'in (Mahler measure), Kristin Lauter* (abelian varieties, cryptography), Rachel Pries* (algebraic curves, abelian varieties), and Renate Scheidler (class groups).

We aim to make a few improvements based on participant feedback from the previous WIN conferences. We have found that the research collaboration conferences have the greatest impact on the careers of postdocs and young faculty, who have already built sufficient mathematics background to get up and running on a project quickly and are often looking for new research directions. Therefore, we will include more participants at this career level. We will accept fewer graduate students, being more selective in the background requirements for the research projects to ensure that the graduate students who do attend can be fully integrated into their research group. We will also make a more concerted effort to include faculty from teaching-oriented colleges. We have also heard from some project leaders that while they enjoy mentoring young mathematicians, they would like part of the conference to be more directly beneficial to them, providing an opportunity to build or continue research collaborations with other more senior participants. We expect that the new makeup of the participant pool will mean that several of the project groups will work more independently from their group leaders than in the past. In this case, the group leaders will have significant time to work together exploring areas of mutual interest. This is especially desirable for group leaders who are still early- or mid-career and need to balance new leadership roles with their own research progress.

### Low-dimensional Topology and Number Theory

Meeting Type: invitational conference

Contact: see conference website

### Description

Organisers

Paul E. Gunnells, Amherst

Walter D. Neumann, New York

Adam S. Sikora, New York

Don B. Zagier, Bonn

## September 2017

### Locally Symmetric Spaces: Analytical and Topological Aspects

Meeting Type: long-term research program

Contact: see conference website

### Description

During the 2017-18 academic year, the School will have a special program on Locally Symmetric Spaces: Analytical and Topological Aspects. Akshay Venkatesh of Stanford University will be the Distinguished Visiting Professor.

The topology of locally symmetric spaces interacts richly with number theory via the theory of automorphic forms (Langlands program). Many new phenomena seem to appear in the non-Hermitian case (e.g., torsion cohomology classes, relations with mixed motives and algebraic K-theory, derived nature of deformation rings). One focus of the program will be to try to better understand some of these phenomena.

Much of our understanding of this topology comes through analysis ("Hodge theory"). Indeed harmonic analysis on locally symmetric spaces plays a foundational role in the theory of automorphic forms and is of increasing importance in analytic number theory. A great success of such harmonic analysis is the Arthur-Selberg trace formula; on the other hand, the analytic aspects of the trace formula are not fully developed, and variants such as the relative trace formula are not as well understood. Thus analysis on such spaces, interpreted broadly, will be another focus of the program.

### Automorphic Forms and Arithmetic

Meeting Type: invitational conference

Contact: see conference website

### Description

```
Organisers
```

Valentin Blomer, Göttingen

Emmanuel Kowalski, Zürich

Philippe Michel, Lausanne

### British Algebraic Geometry meeting (BrAG)

Meeting Type: conference

Contact: Julius Ross

### Description

BrAG will become a series of regular meetings of British algebraic geometers. Our goal is to create a series that further strengthens the British algebraic geometry community, and that integrates PG students and young researchers. The meetings will feature a number of pre-talks for graduate students, a poster session, and will include plenty of time for informal interactions between the participants.

## October 2017

### p-adic Cohomology and Arithmetic Applications

Meeting Type: conference

Contact: Tomoyuki Abe, Chris Lazda, Kiran Kedlaya, Ambrus Pal

### Description

These exciting new trends emerging in the field are of course deeply interwoven, as we already mentioned, and by hosting this workshop we hope to encourage new progress in these areas by promoting both predictable and unpredictable synergies between them. For example, extending the scope of p-adic cohomology will require a more sophisticated view of the foundations of the subject in order to cope with these more general situations, and will in turn feed into many of the other areas of interest, in particular representation theory and the local Langlands correspondence by providing a more powerful language in which to discuss these questions. It is important to note that p

-adic cohomology is often characterised by a plethora of different approaches to the subject, each of which has its own particular perspective and scope of application. By drawing together people working on all aspects of the theory, and building on the successful conference hosted by 2 of the organisers at Imperial College London in March 2015, we will provide a platform for a cross-fertilisation of the raft of new ideas in all these different approaches, and stimulate new developments across the whole breadth of the subject. Here we list a few topics and the expected interactions which we hope to foster via the workshop.

Foundations and theory over non-perfect fields} Traditionally, p -adic cohomology theories have been expressed for varieties over perfect ground fields of characteristic p . While much of the theory still works over non-perfect fields, arithmetic considerations (in particular the general phenomenon of semistable reduction, as well as analogies with the ℓ -adic theory) lead one to expect certain refinements of existing p -adic cohomologies (such as rigid cohomology) when working over such non-perfect fields. As a first step in this direction, the basics of this picture have been recently worked out over the simplest of non-perfect fields, namely Laurent series field in one variable, which has paved the way for a whole host of applications, such as a p -adic version of the weight monodromy conjecture and good reduction criteria for curves. This approach appears to be a rich source of new arithmetic results on varieties in characteristic p , although there is still much more foundational work to be done, both in the case of Laurent series fields and in terms of moving towards other examples such as global fields or higher dimensional local fields. On there other hand the groundbreaking work of Caro in the last decade has culminated in the proof of the existence of a 6 operations formalism in p -adic cohomology, including a full theory of weights \cite{padicwt . We expect to see interactions between these two strides of research, and the workshop will provide the perfect environment to achieve this.

The Langlands program and links with representation theory} One of the importance of the original theory of algebraic D -modules, which is over a field of characteristic zero, is that it has various application to representation theory. Beilinson--Bernstein correspondence is one of the most famous such examples. About 20 years ago Berthelot proposed a framework to establish a 6 functor formalism for schemes over fields of positive characteristics by pursuing an analogy with algebraic D -modules, and named it arithmetic D -module theory. With the above mentioned work of Caro, the foundations of the theory are essentially in place, and attention is turning to a new stage. As in the classical situation, it is hoped that the theory will prove a powerful tool for representation theory, including the p -adic Langlands program. A similar such application of D -module theory over rigid analytic spaces over p -adic fields has been already found by Ardakov--Wadsley \cite{ardwad , who used their theory to answer some representation theoretical problems which arose in the new p-adic local Langlands program.

There is a closely related work of Huyghe, Patel, Schmidt and Strauch on localisation theorems in the setting of arithmetic D -modules of Berthelot (see [HPSS}) which proves that there is an equivalence of categories between the category of locally analytic admissible representations of some split reductive group over a finite extension of Qp, and the category of coadmissible arithmetic D-modules over the rigid analytic space attached to the flag variety of the group. Similarly, the 6 operations formalism has been used by Abe \cite{abelang} to prove a p-adic Langlands correspondence in the function field setting, and thus prove Deligne's ``petits camarades cristallins" conjecture on the existence of p-adic companions to compatible systems of ℓ-adic Galois representations (at least over curves). Finally let us mention the work of Christian Johannsson, who studied the classicality for small slope overconvergent automorphic forms on certain higher dimensional Shimura varieties (see \cite{Jo]), a work whose primary innovation is to use a robust formalism of p-adic cohomology. These works all represent different aspects of the p-adic Langlands program, both over number fields and function fields, and all rely heavily on the methods of p-adic cohomology. Promoting co-operation between the experts of this subject and the leaders of the foundational theory of p

-adic cohomology will therefore be essential in progressing this exciting new direction of research.

The de Rham--Witt complex and Iwasawa theory} One of the original motivations of Grothendieck and Berthelot for inventing crystalline cohomology as a p -adic companion to the family of ℓ -adic cohomologies produced by the \'{e}tale theory was to explain p -torsion phenomenon. While integral crystalline cohomology achieves this for smooth and proper varieties, the extension to a `good' cohomology theory for arbitrary varieties, which reached its zenith in the proof of the 6 operations formalism by Caro, has been achieved only for rational coefficients, i.e. after tensoring with Q . This therefore still leaves open the question of what an integral p -adic theory should look like for open or singular varieties, which has been the subject of much recent work in the field, in particular the study of the overconvergent de Rham--Witt complex by Davis, Langer and Zink \cite{dlz . This now seems to provide a good candidate for smooth (but possibly open) varieties, although there are still many important open questions still to answer, including comparisons with other candidates such as integral Monsky--Washnitzer cohomology.

This is very closely related to the study of p -adic properties of L-functions in characteristic p where most of the work recently has been done on 1-dimensional families of abelian varieties, for example [KT}, \cite{Pa} and \cite{TV} which look at the refined Birch--Swinnerton-Dyer conjecture, the integrality of p-adic L-functions and the equivariant Tamagawa number conjecture, respectively. What is common in these works is the crucial use of integral p

-adic cohomology theories predating the construction in \cite{dlz], typically log crystalline cohomology. Therefore they are forced either to reduce the general case to the semi-stable one, or worse, restrict to the situation when the abelian scheme is semi-stable and the considered Galois covers of the base are tame. This demonstrate the limitations of these methods, but with sufficient progress on the finiteness properties of the the overconvergent de Rham--Witt complex we expect that this area would start to develop very rapidly.

Relations with function field arithmetic} We already mentioned the deep analogy and the cross-fertilisation which occurred between p -adic Hodge theory and its function field analogue at a crucial point of their development. However there are other areas of p -adic cohomology and function field arithmetic which are closely analogous and more intimate interaction would benefit both. For example a central object of study in function field arithmetic is Goss L -functions of function field motives (see for example [T1]). These motives have a cohomological theory with a trace formula (see \cite{BP1 ), but the theory does not admit 6 operations. It would greatly benefit the topic if the methods of p-adic cohomology were successfully transported into it. On there hand the transcendence theory of special values of Goss L-functions is highly developed, but uses cohomological, Tannakian and analytic methods which would be very familiar to experts of p-adic cohomology (such as Dwork's trick) if they knew them. We hope that workshop could bring the birth of a brand new transcendence theory of p-adic periods in characteristic p.

Other topics Let us mention a few more topics which were intensively studied recently and which all have deep connections to the main topic of the proposed workshop, but which we could not describe in much detail for the lack of space: p-adic differential equations, crystalline fundamental groups and p-adic Simpson correspondence, p-adic Hodge theory and p-adic representations. We just remark in passing that p-adic differential equations play a fundamental role in the foundations of the theory, the study of crystalline fundamental groups is necessary for removing some of the thorny problems encountered in the Langlands program over function fields, and some form of a p-adic Simpson correspondence might be the way to overcome these, while p-adic Hodge theory remains perhaps the single most important application of p-adic cohomology via the theory of p-adic representations. So we expect that they will remain in the focus of research, and by inviting experts in these fields we will not only spread knowledge of some of the powerful new methods available in p-adic cohomology, but also to inspire those working in the field with potential new applications of their research.

Bibliography

```
[1] abelang T.~Abe, Langlands correspondence for isocrystals and existence of crystalline companion for curves, arXiv:1310.0528, (2013).
[2] padicwt T.~Abe and D.~Caro, Theory of weights in {p
```

}-adic cohomology, arXiv:1303.0662v3, (2014).

[3] ardwad K.~Ardakov and S.~Wadsley, On irreducible representations of compact {p }-adic analytic groups, Ann. of Math., 178 (2013), 453--557.

[4] Ba1 F. Baldassarri, Continuity of the radius of convergence of differential equations on p -adic analytic curves, Invent. Math. 182 (2010), 513--584.

[5] cohcrist P.~Berthelot, Cohomologie cristalline des sch{\'e}mas de characteristic {p>0 }, Lecture Notes in Mathematics 407, Springer-Verlag, Berlin-New York, 1974.

[6] B1 P.~Berthelot, Finitude et puret\'e cohomologique en cohomologie rigide, Invent. Math. 128 (1997), 329--377.

[7]{Bess1} A.~Besser, A generalization of Coleman's p -adic integration theory, Invent. Math. 142 (2000), 397--434. \bibitem[8] Bess2 A.~Besser, Coleman integration using the Tannakian formalism, Math. Ann. 322 (2002), 19--48.

[9] BP1 G.~B\"ockle and R.~Pink, Cohomological theory of crystals over function fields, Tracts in Mathematics 5, European Mathematical Society, (2009).

[10] dlz C.~Davis, A.~Langer, and T.~Zink, Overconvergent de {R}ham-{W}itt cohomology, Ann. Sci. \'Ec. Norm. Sup\'er. 44 (2011), 197--262.

[11] DW B.~Dwork, On the rationality of the zeta function of an algebraic variety, Amer. J. Math. 82 (1960), 631--648.

[12] G1 M.~Gros, R\'egulateurs syntomiques et valeurs de fonctions L p -adiques I, with an appendix by Masato Kurihara, Invent. Math. 99 (1990), 293--320.

[13] G2 M.~Gros, R\'egulateurs syntomiques et valeurs de fonctions L p -adiques II, Invent. Math. 115 (1994), 61--79.

[14] grothcrys A.~Grothendieck, Crystals and the de {R}ham cohomology of schemes}, in {\it Dix {e}xpos\'es sur la {c}ohomologie des {s}ch\'emas, North-Holland, Amsterdam--Paris, 1968, pp. 306--358.

[15] Ha U.~Hartl, Period spaces for Hodge structures in equal characteristic, Ann. of Math. 173 (2011), 1241--1358.

[16] HPSS C.~Huyghe, D.~Patel, T.~Schmidt, and M.~Strauch, D† -affinity of formal models of flag varieties, arXiv:1501.05837, (2015).

[17] hyodokato O.~Hyodo and K.~Kato, Semi-stable reduction and crystalline cohomology with logarithmic poles, Ast\'erisque 223, 1994, pp. 221--268.

[18] Jo C.~Johannsson, Classicality for small slope overconvergent automorphic forms on some compact PEL Shimura varieties of type C, Math. Ann. 357 (2013), 51--88.

[19] KT K.~Kato and F.~Trihan, On the conjectures of Birch and Swinnerton-Dyer in characteristic p>0, Invent. Math. 153 (2003), 537--592.

[20] kedzeta K.~Kedlaya, Computing zeta functions via {p }-adic cohomology}, in {\it Algorithmic number theory, Lecture Notes in Comput. Sci. 3076, Springer-Verlag, Berlin-New York, 2004, pp. 1--17.

[21] Ke1 K.~Kedlaya, Convergence polygons for connections on nonarchimedean curves, arXiv:1505.01890v2, to appear in the proceedings of the Simons Symposium on non-archimedean and tropical geometry, (2015).

[22] KL K.~Kedlaya and R.~Liu, Relative p-adic Hodge theory: foundations, Ast\'erisque, to appear, 210 pages.

[23] kim1 M.~Kim, The unipotent Albanese map and Selmer varieties for curves, Publ. RIMS, Kyoto Univ. 45 (2009), 89--133.

[24] lauderzeta A.~Lauder, A recursive method for computing zeta functions of varieties, LMS J. Comput. Math. 9 (2006), 222--269.

[25] LP C.~Lazda and A.~P\'al, Rigid cohomology over Laurent series fields, Algebra and Applications, Springer--Verlag, London, to appear, 191 pages.

[26] messing W.~Messing, The crystals associated to {B}arsotti-{T}ate groups: with applications to abelian schemes, Lecture Notes in Mathematics 264, Springer-Verlag, Berlin-New York, 1972.

[27] MW P.~Monsky and G.~Washnitzer, Formal cohomology. I, Ann. of Math. 88 (1968), 181--217.

[28] Mo M.~Morrow, A Variational Tate conjecture in crystalline cohomology, preprint, (2015).

[29] Pa A.~P\'al, The Manin constant of elliptic curves over function fields, Algebra Number Theory 4 (2010), 509--545.

[30] PP J. Poineau and A. Pulita, The convergence Newton polygon of a p-adic differential equation IV: local and global index theorems, arXiv:1309.3940v1 (2013).

[31] T1 L. Taelman, Special L-values of Drinfeld modules, Ann. of Math. 175 (2012), 369--391.

\bibitem[32]{TV} F.~Trihan and D.~Vauclair, A comparison theorem for semi-abelian schemes over a smooth curve, arXiv:1505.02942, (2015).

### Automorphic Forms, Mock Modular Forms and String Theory

Meeting Type: conference

Contact: see conference website

### Description

The main objective of this workshop is to gather physicists and mathematicians working on automorphic forms, mock modular forms, black holes and moonshine in an effort to foster cross-fertilisations between these different fields. Over the last few years there have been numerous conferences devoted to the connection between mock modular forms, moonshine and string the- ory, but at these meetings the community of mathematicians working on automorphic forms and automorphic representations is usually absent. It is also our impression that mathematicians working on the Langlands program are usually unaware that many similar structures occur naturally in string theory. Thus, this proposed meeting will be dedicated to stimulating the exchange of ideas and perspectives coming from these seemingly disparate fields. This will focus parallel research activities in different fields and the BIRS workshop format and the BIRS facilities provide an ideal environment for this endeavor.

Specifically, the workshop will focus on the following cross-disciplinary areas:

• The connection between string theory amplitudes and small automorphic representations. The most supersymmetric string theory scattering processes have been interpreted as very small auto- morphic representations. Less supersymmetric processes call for an in-depth study of increasingly larger automorphic representation.

• Representation theoretic aspects of mock modular forms. Classical modular forms have a natural interpretation in terms of representation theory of reductive groups. What about mock modular forms?

• Automorphic forms on Kac-Moody groups and their relation with string amplitudes in low dimensions. The theory of automorphic forms on Kac-Moody groups and especially their Fourier ex- pansion needs to be developed further for understanding low-dimensional string theory amplitudes.

• Mock modular forms and Siegel modular forms in umbral moonshine. Umbral moonshine gives rise to a rich family of Jacobi forms and mock modular forms. Jacobi forms can be lifted to Siegel modular forms. What is the corresponding lift of the associated mock modular forms?

• Connections between umbral moonshine and Calabi-Yau compactifications of string theory. A proper string theory understand- ing of Mathieu or umbral moonshine in terms of a an underlying con- formal field theory is currently lacking.

• Automorphic representations and black hole counting. Understanding the microscopic origin of the entropy of a black hole requires counting black hole states in string theory. Since the same states also contribute to the Fourier expansion of automorphic forms, the counting problem could be rephrased in automorphic terms.

### Interplay between Number Theory and Analysis for Dirichlet Series

Meeting Type: invitational conference

Contact: see conference website

### Description

```
Organisers
```

Frédéric Bayart, Aubière

Kaisa Matomäki, Turku

Eero Saksman, Helsinki

Kristian Seip, Trondheim

## November 2017

### Arithmetic and Complex Dynamics

Meeting Type: conference

Contact: see conference website

### Description

This workshop will bring together leading researchers from complex dynamics, non-Archimedean analysis and geometry, and algebraic and arithmetic geometry, with the goal of making progress on current problems in arithmetic dynamics. Recent breakthroughs have come from groups of mathematicians whose backgrounds span these varied disciplines. We will focus on sharing ideas and tools among researchers from diverse specialties in hopes of inspiring new questions and collaborations in arithmetic dynamics.

Arithmetic dynamics is an exciting and relatively new field, with many significant recent developments, so we plan to include a considerable number of young researchers. Our intended list of participants also includes a number of experts in complex dynamics and arithmetic geometry, since much of arithmetic dynamics concerns the connections between these two fields. For instance, the recent work on unlikely intersections in complex dynamics originated with a collaboration between non-Archimedean analyst Baker and complex dynamicist DeMarco, inspired by questions of arithmetic geometers Poonen, Masser, and Zannier. The workshop will sustain these extant collaborations, and found new cross-discipline research groups. To encourage this, the workshop will include casual open problem sessions on selected evenings during the week, and a speaker schedule that allows for interaction and discussion between talks.

We believe that the diverse group of researchers at the workshop will inspire many new questions in arithmetic dynamics and related fields; however, the workshop will focus on three main areas of research to guide the talks and open problem sessions.

Objective 1 (Unlikely intersections).} Bring participants up to date on recent progress in unlikely intersections in complex dynamics and in Diophantine geometry, and discuss the technical obstacles which must be overcome for future research, for example, towards developing a clean, well-formulated dynamical Andr\'e-Oort conjecture. Also of primary interest will be possibilities towards proving higher-dimensional versions of this conjecture, since all proved cases to date concern 1-dimensional varieties. Current results in this direction include progress on the dynamical analogs of well-known conjectures in arithmetic geometry, such as Mordell-Lang, Manin-Mumford, and Andr\'e-Oort [BD, BGT,Xie:DML, DF, GTZ, DWY, GKN, GKNY, GHT}. The dynamical proofs use a rich collection of techniques which include the deep equidistribution theorems of~\cite{BR, CL, FRL, YZ, Zhang:ICM], classical techniques of complex analysis and potential theory, and Ritt's theory of decomposition of polynomials, and are all illustrative of the general principle of unlikely intersections in arithmetic geometry, as in \cite{Andre, BMZ, O.

Objective 2 (non-Archimedean geometry/analysis).} Discuss the status of equidistribution theorems in various contexts, building on work of \cite{FRL, BR, CL, YZ, and the earlier ideas of Szpiro-Ullmo-Zhang, used to study abelian varieties. We now that we understand that weaker hypotheses are needed for various applications, and also that equidstribution does not always hold, even for "nice" height functions. As examples, there is the recent (non-dynamical) work of Rivera-Letelier, Burgos Gil, Philippon, and Sombra, studying the equidistribution on toric varieties, and the dynamical example of DeMarco, Wang and Ye showing that a desired ``adelic metrized line bundle" in the sense of Zhang is not always adelic. The existing equidistribution theorems have been used in many dynamical applications recently.

Objective 3 (Heights in arithmetic dynamics).} The concept of height plays a key role in arithmetic geometry, for example in Falting's proof of the Mordell conjecture and the proof of the Bogomolov conjecture by Szpiro-Ullmo-Zhang. In arithmetic dynamics, they are everywhere. Given a rational self-map of a projective variety defined over a number field, Silverman has formulated several conjectures that relate the asymptotic growth of the height along the orbit to quantities such as the dynamical degrees of the map. Special cases of these conjectures were recently proved in~\cite{Silverman:canheights, KS13,KS14,JW,JR. The workshop will feature new developments in this area, as well as related topics such as heights for finitely generated extensions of the rational numbers as studied by Moriwaki or Yuan-Zhang.

## July 2018

### 2018 ICM satellite conference in Number Theory

Meeting Type: conference

Contact: Henri Darmon, Fred Diamond, Kiran Kedlaya, Aftab Pande, Richard Taylor, Marie-France Vigneras

### Description

Automorphic forms, Galois representations and L-functions, and the interplay among them, have been at the heart of numerous major advances in number theory over the last few decades, from their relevance to long-standing problems such as Fermat's Last Theorem and the Birch and Swinnerton-Dyer Conjecture to their role in the evolution of new research directions such as the the p-adic Langlands program and the theory of perfectoid spaces. The conference will focus on recent developments, with topics that include the Langlands program, special values of L-functions, Shimura varieties and p-adic Hodge theory.

## August 2018

### International Congress of Mathematicians

Meeting Type: international congress

Contact: see conference website

### Description

Satellite conferences will appear later with their own entries.

## January 2019

### Birational Geometry and Moduli Spaces

Meeting Type: research program

Contact: see conference website

### Description

Birational Geometry and Moduli Spaces are two important areas of Algebraic Geometry that have recently witnessed a flurry of activity and substantial progress on many fundamental open questions. In this program we aim to bring together key researchers in these and related areas to highlight the recent exciting progress and to explore future avenues of research.

This program will focus on the following themes: Geometry and Derived Categories, Birational Algebraic Geometry, Moduli Spaces of Stable Varieties, Geometry in Characteristic p>0, and Applications of Algebraic Geometry: Elliptic Fibrations of Calabi-Yau Varieties in Geometry, Arithmetic and the Physics of String Theory

### Derived Algebraic Geometry

Meeting Type: research program

Contact: see conference website

### Description

Derived algebraic geometry is an extension of algebraic geometry that provides a convenient framework for directly treating non-generic geometric situations (such as non-transverse intersections in intersection theory), in lieu of the more traditional perturbative approaches (such as the “moving” lemma). This direct approach, in addition to being conceptually satisfying, has the distinct advantage of preserving the symmetries of the situation, which makes it much more applicable. In particular, in recent years, such techniques have found applications in diverse areas of mathematics, ranging from arithmetic geometry, mathematical physics, geometric representation theory, and homotopy theory. This semester long program will be dedicated to exploring these directions further, and finding new connections.

## July 2019

### Journées Arithmétiques

Meeting Type: conference

Contact: see conference website

### Description

The Journées Arithmétiques meetings, held every two years, cover all aspects of number theory. The venues alternate between locations in France and locations elsewhere in Europe.