Quantum computation and quantum simulation with ultracold molecules
Ultracold molecules confined in optical lattices or tweezer traps can be used to process
quantum information and simulate the behaviour of many-body quantum systems. Molecules …
quantum information and simulate the behaviour of many-body quantum systems. Molecules …
Collisions of spin-polarized YO molecules for single partial waves
JJ Burau, K Mehling, MD Frye, M Chen, P Aggarwal… - Physical Review A, 2024 - APS
Efficient sub-Doppler laser cooling and optical trapping of YO molecules offer new
opportunities to study collisional dynamics in the quantum regime. Confined in a crossed …
opportunities to study collisional dynamics in the quantum regime. Confined in a crossed …
Quantum-Monte-Carlo–based functional for dysprosium dipolar systems
R Bombín, V Cikojević, F Mazzanti, J Boronat - Physical Review A, 2024 - APS
We present a quantum-Monte-Carlo–based density functional to describe droplet formation
and supersolidity in dipolar systems. The usual Lee-Huang-Yang term, accounting for …
and supersolidity in dipolar systems. The usual Lee-Huang-Yang term, accounting for …
Realization of a Rydberg-dressed extended Bose Hubbard model
The competition of different length scales in quantum many-body systems leads to various
novel phenomena, including the emergence of correlated dynamics or non-local order. To …
novel phenomena, including the emergence of correlated dynamics or non-local order. To …
Physics-guided weak-form discovery of reduced-order models for trapped ultracold hydrodynamics
RRW Wang, D Messenger - arXiv preprint arXiv:2406.07519, 2024 - arxiv.org
We study the relaxation of a highly collisional, ultracold but nondegenerate gas of polar
molecules. Confined within a harmonic trap, the gas is subject to fluid-gaseous coupled …
molecules. Confined within a harmonic trap, the gas is subject to fluid-gaseous coupled …