WINQ

Spin-Holstein models, trapped ions and non-Gaussian variational states

Name: Spin-Holstein models, trapped ions and non-Gaussian variational states
Start: 2024-07-08T13:30:00+02:00
End: 2024-07-08T15:30:00+02:00
Location: Albano Building 3

by Dr Johannes Knörzer (ITS-ETH)

Monday 8 Jul 2024, 13:30 → 15:30 Europe/Stockholm

Albano 3: 6228 - Mega (22 seats) (Albano Building 3)

Albano 3: 6228 - Mega (22 seats)

Albano Building 3

Description

This seminar reviews recent work on Spin-Holstein models using trapped-ion systems [1], demonstrating their capability to simulate electron-phonon interactions and phenomena such as charge-density wave order and fermion pairing. Additionally, it provides an introduction to non-Gaussian variational states with generalized canonical transformations [2], which improve the description of strong entanglement and correlations. Finally, some ideas for future work will be discussed.

[1] Knörzer, Johannes, Tao Shi, Eugene Demler, and J. Ignacio Cirac. 2022. “Spin-Holstein Models in Trapped-Ion Systems.” Physical Review Letters 128 (12): 120404. https://doi.org/10.1103/PhysRevLett.128.120404.

[2] Shi, Tao, Eugene Demler, and J. Ignacio Cirac. 2018. “Variational Study of Fermionic and Bosonic Systems with Non-Gaussian States: Theory and Applications.” Annals of Physics 390 (March):245–302. https://doi.org/10.1016/j.aop.2017.11.014.