Conferences  >  Physics  >  Mathematical Physics

Erwin Schrödinger International Institute for Mathematics and Physics (ESI)

Gravitational lensing represents a characteristic feature of astrophysical systems in strong gravitational fields, such as the supermassive black holes recently observed by the Event Horizon Telescope. On the other hand, strong gravitational fields are also being probed by the LIGO-Virgo-KAGRA observations of gravitational waves. With the rapidly increasing number of observed gravitational waves, it is expected that a small portion of these events will be gravitationally lensed. This workshop aims to bring together members of the astrophysical community working on lensing and wave effects in strong gravitational fields and to discuss physics relevant for both the Event Horizon Telescope and LIGO-Virgo-KAGRA observations. We plan to discuss the current open problems and perspectives in the field, facilitate the transfer of techniques between the much more mature field of lensing of electromagnetic waves towards novel studies in the lensing of gravitational waves, as well as to see how wave effects beyond the standard lensing approaches could be incorporated.

High Energy Physics, Particles and Fields,    Astronomy, Astrophysics and Cosmology

American Institute of Mathematical Sciences (AIMS) and NYU at Abu Dhabi

The Conference aims to promote cooperation, understanding, and collaboration among scientists working in analysis, dynamical systems, differential equations and applications. The goals of the meeting are a cross-fertilization of ideas from different application areas, and increased communication between the mathematicians who develop dynamical systems techniques and the applied scientists who use them.

Pure and applied analysis, differential equations and dynamical systems, in the broadest sense. The applications are diverse and multidisciplinary, covering areas of applied science and engineering that include biology, chemistry, physics, finance, industrial mathematics and more, in the forms of modeling, computations and simulation. As the most participated international conference in its fields, it covers, in the broadest sense, analysis, applied and computational analysis. Included are differential equations, dynamical systems, fluid dynamics, computing, control and optimization, functional analysis and nonlinear analysis, harmonic analysis, approximation, operator theory, mathematical physics, engineering mathematics, biomathematics, and mathematical finance.

General Mathematical Research and Multidisciplinary Events,    Meetings of Professional Bodies in Mathematics

Erwin Schrödinger International Institute for Mathematics and Physics (ESI)

The aim of the project is to reinforce the collaboration between scientists from austrian research institutions and international institutions around the topic of infinite dimensional geometry. Direct applications of the theoretical aspects of infinite dimensional geometry to numerical schemes for solving partial differential equations coming from hydrodynamics, as well as medical applications of shape analysis are part of the program. The programme will last five 5 weeks, each devoted to different topic ranging from abstract theoretical questions to very concrete applications (e.g. medical).

Courses and Events for Physics Students,    Geometry and Topology

Banach Center

Galileo Galilei Institute For Theoretical Physics

The aim of the school is to bring together PhD students with interests in low-dimensional quantum field theory, conformal field theory and integrable models, and their applications to statistical mechanics and condensed matter systems, and to help them building a solid and specialized background on these subjects. The school provides sets of postgraduate lectures covering introductory topics as well as recent developments in the field.

High Energy Physics, Particles and Fields,    Courses and Events for Physics Students

University of Potsdam

The meeting is part of a series of meetings initiated by Professor Schulze devoted to micro-local, singular and global analysis and their interactions with geometry and mathematical physics.

Analysis,    Geometry and Topology

CIRM – Centre International de Rencontres Mathématiques

This project focuses on the development of unconditionally stable conforming space—time methods for the linear time‑dependent Schrödinger equation. The main challenge is to overcome the lack of inf‑sup stability in the standard Petrov‑Galerkin formulation for this equation. In fact, the conforming space—time finite element discretization requires a restrictive CFL condition. To address this issue, we propose two approaches. ‑The first one is to augment the sesquilinear form of the standard scheme by adding a carefully chosen inconsistent penalty term to improve the discrete properties of the scheme. By introducing this term, we aim to improve stability without compromising convergence order. ‑The second approach involves the composition of the continuous sesquilinear form with an appropriate transform of the test functions. This modification aims to endow the new sesquilinear form with higher stability properties than its unmodified counterpart.

Applied Mathematics (in general),    Computational Physics and Numerical Simulation

The mathematical modeling, simulation and analysis of wave phenomena entail a plethora of fascinating and challenging problems both in analysis and numerical mathematics. During the past decades, these challenges have inspired a number of important approaches, developments and results about wave-type equations in both fields of mathematics. In this conference we want to bring together international experts with different background to stimulate the transfer of ideas, results, and techniques within this exciting area.

Analysis,    Applied Mathematics (in general)

Erwin Schrödinger International Institute for Mathematics and Physics (ESI)

CIRM – Centre International de Rencontres Mathématiques

The idea of making space noncommutative is probably as old as quantum mechanics, but it has developed considerably since the mid 80’s in various directions, from pure mathematics to theoretical physics, yielding some phenomenological predictions in high energy physics. The aim of this conference is the interplay between noncommutative geometry and physics.

CIRM – Centre International de Rencontres Mathématiques

The conference, in advance of a thematic program planned for IHP in 2026, addresses the key role played by completely integrable systems as models for wave phenomena in myriad physical settings such as surface water waves and internal waves, quantum excitations in Bose-Einstein condensates, plasma oscillations, optical fiber telecommunication systems, and solid-state physics. The principal objectives of the CIRM conference are to focus specifically on soliton gases, explicit formulas, and asymptotic behavior in integrable models, and to highlight corresponding novel results and new progress on several previously impenetrable fronts.

Calculus, Differential Equations and Integration,    Applied Mathematics (in general)

Hausdorff Research Institute for Mathematics (HIM)

High Energy Physics, Particles and Fields,    Courses and Events for Physics Students

Erwin Schrödinger International Institute for Mathematics and Physics (ESI)

Technical University of Munich

The conference series "Mathematical Results in Quantum Theory" brings together people interested in the mathematical theory of quantum mechanics. QMATH16 takes place on the Garching Research Campus of the Technical University of Munich.

Quantum Information Theory and Quantum Computing,    Quantum Mechanics and Quantum Technology

EMBL Heidelberg

The fundamental question of the role of metabolism in development has seen a revival in interest over recent years, creating the need for the first edition of this workshop in 2023. This second edition is set to reunite the community two years on, and to ensure the ongoing interactions that can propel progress in developmental metabolism. In this rapidly advancing field, metabolomic methods play a crucial role in unraveling complex processes. The workshop will again aim to bring together researchers from diverse backgrounds: developmental biology, genetics, epigenetics, ecology, physics and math, to provide the developmental metabolism community with cutting-edge research and methodologies applied across scales, insights into the latest advancements in metabolomic techniques and their application to developmental biology. New for 2025 will be an increased integration of tool development and technologies and an added focus on novel metabolomic approaches.

EMBL Events;     Email: events@embl.de

Biology,    Mathematical Logic and Foundations

Erwin Schrödinger International Institute for Mathematics and Physics (ESI)

Isaac Newton Institute for Mathematical Sciences