KIP-Veröffentlichungen

 
Jahr 2019
Autor(en) Alexander Mil and Torsten V. Zache and Apoorva Hegde and Andy Xia and Rohit P. Bhatt and Markus K. Oberthaler and Philipp Hauke and Jürgen Berges and Fred Jendrzejewski
Titel Realizing a scalable building block of a U(1) gauge theory with cold atomic mixtures
KIP-Nummer HD-KIP 20-02
KIP-Gruppe(n) F17,F21,P1
Dokumentart Paper
Quelle arXiv (2019) 1909.07641
Abstract (en)

In the fundamental laws of physics, gauge fields mediate the interaction between charged particles. An example is quantum electrodynamics -- the theory of electrons interacting with the electromagnetic field -- based on U(1) gauge symmetry. Solving such gauge theories is in general a hard problem for classical computational techniques. While quantum computers suggest a way forward, it is difficult to build large-scale digital quantum devices required for complex simulations. Here, we propose a fully scalable analog quantum simulator of a U(1) gauge theory in one spatial dimension. To engineer the local gauge symmetry, we employ inter-species spin-changing collisions in an atomic mixture. We demonstrate the experimental realization of the elementary building block as a key step towards a platform for large-scale quantum simulations of continuous gauge theories.

bibtex
@article{Mil2019,
  author   = {Mil, Alexander and Zache, Torsten V. and Hegde, Apoorva and Xia, Andy and Bhatt, Rohit P. and Oberthaler, Markus K. and Hauke, Philipp and Berges, J{\"{u}}rgen and Jendrzejewski, Fred},
  title    = {{Realizing a scalable building block of a U(1) gauge theory with cold atomic mixtures}},
  journal  = {arXiv},
  year     = {2019},
  volume   = {},
  pages    = {1909.07641},
  url      = {http://arxiv.org/abs/1909.07641}
}
URL Mil2019
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