Title: Bootstrapping gauge theories (QCD)
Speaker: Yifei He
Time: Oct. 19th, 16:15
Location: Room 439
Abstract: We consider asymptotically free gauge theories with gauge group SU(Nc) and Nf quarks with mass mq < < LambdaQCD that undergo chiral symmetry breaking and confinement. We propose a bootstrap method to compute the S-matrix of the pseudo- Goldstone bosons (pions) that dominate the low energy physics. For the important case of Nc = 3, Nf = 2, a numerical implementation of the method gives the phase shifts of the S0, P1 and S2 waves in good agreement with experimental results. The method incorporates gauge theory information (Nc, Nf, mq, LambdaQCD) by using the form-factor bootstrap recently proposed by Karateev, Kuhn and Penedones together with a finite energy version of the SVZ sum rules. At low energy we impose constraints from chiral symmetry breaking. The only low energy numerical inputs are the pion mass and the quark and gluon condensates. Based on 2309.12402 with Martin Kruczenski.
Bio: Yifei He obtained her PhD degree at Purdue University in 2018. She then carried out her postdoctoral studies at IPhT Saclay (2018-2020) and Ecole Normale Superieure (2021-2022). Since 2023, she has been a CNRS permanent researcher affiliated at Laboratoire de Physique de l’Ecole Normale Superieure. Her work focuses on the nonperturbative bootstrap approach to quantum field theories, applied to both statisical physics (through conformal bootstrap) and particle physics (through S-matrix bootstrap).