Quantum quench dynamics of geometrically frustrated Ising models
Geometric frustration in two-dimensional Ising models allows for a wealth of exotic universal
behavior, both Ising and non-Ising, in the presence of quantum fluctuations. In particular, the …
behavior, both Ising and non-Ising, in the presence of quantum fluctuations. In particular, the …
A high optical access cryogenic system for Rydberg atom arrays with a 3000-second trap lifetime
Z Zhang, TW Hsu, TY Tan, DH Slichter… - ar** surface, a< 50 K cold box …
Many-body dynamics with explicitly time-dependent neural quantum states
Simulating the dynamics of many-body quantum systems is a significant challenge,
especially in higher dimensions where entanglement grows rapidly. Neural quantum states …
especially in higher dimensions where entanglement grows rapidly. Neural quantum states …
Probing topological matter and fermion dynamics on a neutral-atom quantum computer
Quantum simulations of many-body systems are among the most promising applications of
quantum computers. In particular, models based on strongly-correlated fermions are central …
quantum computers. In particular, models based on strongly-correlated fermions are central …
Multifractal-enriched mobility edges and emergent quantum phases in one-dimensional exactly solvable lattice models
We propose a class of exactly solvable flat-band quasiperiodic lattice models that
encompass a variety of multifractal-enriched mobility edges and multi-state coexisting …
encompass a variety of multifractal-enriched mobility edges and multi-state coexisting …
Emergent topological re-entrant phase transition in a generalized quasiperiodic modulated Su-Schrieffer-Heeger model
We study the topological properties of the one-dimensional generalized quasiperiodic
modulated Su-Schrieffer-Heeger model. The results reveal that topological re-entrant phase …
modulated Su-Schrieffer-Heeger model. The results reveal that topological re-entrant phase …