False vacuum decay in triamond lattice gauge theory

Kavaki, Ali H.Z.; Lewis, Randy

False vacuum decay in triamond lattice gauge theory

Ali H.Z. Kavaki
(
- York U., Canada
)
,
Randy Lewis
(
- York U., Canada
)

Mar 2, 2025

12 pages

e-Print:

2503.01119 [hep-lat]

View in:

ADS Abstract Service

pdf

reference search2 citations

Citations per year

Abstract: (arXiv)

The transition from a false vacuum to the true vacuum is a real-time phenomenon of interest in many contexts. It represents a special challenge for strongly interacting non-Abelian gauge theories because standard spacetime lattices incorporate imaginary time from the outset. To attain real-time phenomena, Hamiltonian lattice methods are being developed for quantum computers. The present work considers SU(2) gauge theory on a minimal lattice in three spatial dimensions, where round-the-world strings called torelons can travel and interact. This minimal 3D lattice has a triamond structure whose properties are elucidated by calculating the spectrum of torelon states. Then, by introducing a twisted boundary condition, real-time evolution is used to demonstrate the decay of a false vacuum. Calculations in the present work are done on classical computers except for one benchmark study of imaginary time evolution that ran on the ibm_brisbane quantum computer.

Note:

12 pages, 7 figures

References(0)

Figures(7)

Loading ...