APCTP Focus Program "Integrability, Duality, and Related Topics" 2024
Dates: September 29 - October 6, 2024
Synopsis
Integrability has played a central role in understanding non-perturbative QFTs quantitatively leading to important applications in condensed matter physics, mathematical physics and more recently, in string theory. There is considerable activity brewing at the interface of these areas. An important recent development is given by integrability-preserving deformations, which includes the TTbar deformation. This progress further expands the scope of integrability to a larger class of models. At the same time, it leads to new insights on fundamental concepts of 2d quantum field theories such as UV completeness and locality. Another promising and active approach toward nonperturbative physics is provided by duality. In particular, dualities found in the AdS/CFT correspondence and its extensions, known as holography, have provided new insights and exact results by employing exact methods such as integrability and localization. AdS/CFT integrability has inspired remarkable advances in the study of correlation functions, including single-trace operators and those involving D-brane in AdS. The techniques employed are closely connected to the study of finite-volume form factors, and of non-equilibrium dynamics in condensed matter physics. Interest in CFT correlators also connects with the conformal bootstrap program, to which integrability is poised to contribute. As examples of how this might happen, links between Calogero-Sutherland models and conformal blocks have been established; non-perturbative methods for computing OPE coefficients which combine numerical conformal bootstrap approach and integrability have been initiated. Exploring this rich web of connections, between different areas of physics and mathematical physics, is in its infancy. In this program we plan to invite a critical mass of researchers with complementary expertise from across the mathematical physics, condensed-matter physics and string theory communities, to promote common interests and collaborations, discover and open up new directions, and in particular, to develop applications to realistic physical systems.
Main Topics
Integrability in AdS/CFT
Non-Invertible Symmetries
TTbar deformations
Integrability and Duality in Condensed Matter system
Speakers (Talk files)
Zoltan Bajnok (Wigner Institute, Hungary)
Jean-Emile Bourgine (Yau Center, China)
Robert de Mello Koch (Huzhou Univ, China)
Xi-Wen Guan (APC, Chinese Academy of Sciences)
Shinji Hirano (Huzhou Univ, China)
Katsushi Ito (Tokyo Tech, Japan)
Andre LeClair (Cornell Univ, USA)*
Norton Lee (IBS, Korea)
Sung-Sik Lee (Perimeter, Canada)*
Yu Nakayama (Yukawa Institute, Japan)*
Thomas Quella (Melbourne Univ, Australia)
Kostya Zarembo (Nordita, Sweden)
Changrim Ahn (Ewha Womans Univ, Korea)
Euihun Joung (Kyunghee Univ, Korea)
Ki-Seok Kim (Postech, Korea)
Minkyoo Kim (Sogang Univ, Korea)
George Linardopoulos (APCTP, Korea)
Feng Hao (student, Jillin Univ, China)
* on-line
Program (tentative)
|
9/29 (Sun) |
9/30 (Mon) |
10/1 (Tue) |
10/2 (Wed) |
10/3 (Thu) |
10/4 (Fri) |
10/5 (Sat) |
10/6 (Sun) |
| Chair |
|
Ahn |
de Mello Koch |
K. Kim |
Joung |
Yoon |
|
|
| 9:00-10:00 |
Discussion |
Ito |
Zarembo |
S. Lee (online) |
LeClair (online) |
Nakayama (online) |
Discussion |
Discussion |
| 10:00-10:30 |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
| 10:30-11:30 |
Discussion |
M. Kim |
Linardopoulos |
Bourgine |
N. Lee |
C. Ahn |
Discussion |
Discussion |
| 11:30-14:00 |
Lunch |
Lunch |
Lunch |
Lunch |
Lunch |
Lunch |
Lunch |
Lunch |
| 14:00-15:00 |
Discussion |
de Mello Koch |
Bajnok |
Guan (80') |
Hirano |
Quella |
Discussion |
Discussion |
| 15:00-15:30 |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
Coffee |
| 15:30-16:30 |
Discussion |
|
|
K. Kim |
E. Joung |
Hao (30') |
Discussion |
Discussion |
Organizers
- Changrim Ahn (Chair, Ewha Womans Univ)
- Robert de Mello Koch (Huzhou Univ)
- Yunfeng Jiang (Southeast Univ)
- Euihun Joung (Kyunghee Univ)
- Ki-Seok Kim (Postech)
- Junggi Yoon (APCTP)