Computation of the radiation amplitude of oscillons
Fodor, G
Forgács, P
Horváth, Z
Mezei, M
Physical Review D
volume 79
issue 6
065002
(15 Mar 2009)
Probing renormalization group flows using entanglement entropy
Liu, H
Mezei, M
Journal of High Energy Physics
volume 2014
issue 1
98
(17 Jan 2014)
Erratum to: Scaling dimensions of monopole operators in the ℂℙNb−1 theory in 2 + 1 dimensions
Dyer, E
Mezei, M
Pufu, S
Sachdev, S
Journal of High Energy Physics
volume 2016
issue 3
111
(16 Mar 2016)
Black Holes Often Saturate Entanglement Entropy the Fastest
Mezei, M
van der Schee, W
Physical Review Letters
volume 124
issue 20
201601
(22 May 2020)
Spontaneously broken boosts in CFTs
Komargodski, Z
Mezei, M
Pal, S
Raviv-Moshe, A
JOURNAL OF HIGH ENERGY PHYSICS
volume 2021
issue 9
(10 Sep 2021)
ALMOST PERIODIC LOCALIZED STATES IN A DILATON MODEL
FODOR, G
FORGÁCS, P
HORVÁTH, Z
MEZEI, M
2069-2071
(13 Feb 2012)
Exact four point function for large q SYK from Regge theory
Choi, C
Mezei, M
Sarosi, G
JOURNAL OF HIGH ENERGY PHYSICS
volume 2021
issue 5
(19 May 2021)
COLEC12 and TRAIL signaling confine cranial neural crest cell trajectories and promote collective cell migration
McLennan, R
Giniunaite, R
Hildebrand, K
Teddy, J
Kasemeier-Kulesa, J
Bolsanos, L
Baker, R
Maini, P
Kulesa, P
Developmental Dynamics
volume 252
issue 5
629-646
(06 Feb 2023)
Accurate forecasts of the effectiveness of interventions against Ebola may require models that account for variations in symptoms during infection
Hart, W
Hochfilzer, L
Cunniffe, N
Lee, H
Nishiura, H
Thompson, R
(2019)
Thu, 23 Feb 2023
14:00 -
15:00
Lecture Room 3
The Bernstein-Gelfand-Gelfand machinery and applications
Kaibo Hu
Abstract
In this talk, we first review the de Rham complex and the finite element exterior calculus, a cohomological framework for structure-preserving discretisation of PDEs. From de Rham complexes, we derive other complexes with applications in elasticity, geometry and general relativity. The derivation, inspired by the Bernstein-Gelfand-Gelfand (BGG) construction, also provides a general machinery to establish results for tensor-valued problems (e.g., elasticity) from de Rham complexes (e.g., electromagnetism and fluid mechanics). We discuss some applications and progress in this direction, including mechanics models and the construction of bounded homotopy operators (Poincaré integrals) and finite elements.