We propose a method to measure time-reversal symmetry violation in molecules that
overcomes the standard quantum limit while leveraging decoherence-free subspaces to …

We propose to sympathetically slow and cool polar molecules in a cold, low-density beam
using laser-cooled Rydberg atoms. The elastic collision cross sections between molecules …

We report on photoassociation spectroscopy probing the c 3 Σ 1+ potential of the bialkali
NaCs molecule, identifying 11 vibrational lines between v′= 0 and v′= 25 of the excited c …

Ultracold dipolar particles pinned in optical lattices or tweezers provide an excellent platform
for the study of the intriguing equilibration dynamics of spin models with dipolar exchange …

Rydberg atoms in optical lattices and tweezers is now a well established platform for
simulating quantum spin systems. However, the role of the atoms' spatial wavefunction has …

Entangled spin squeezed states generated via dipolar interactions in lattice models provide
unique opportunities for quantum enhanced sensing and are now within reach of current …

Diatomic molecular codes [{arxiv: 1911.00099}] are designed to encode quantum
information in the orientation of a diatomic molecule, allowing error correction from small …

Coherently controllable quantum devices have grown so large and complex that direct study
of their microscopic dynamics is extremely difficult, if not infeasible. Yet, realizing the …

In this talk, we present our work exploring many-body localization (MBL) in systems of
ultracold polar molecules in two-dimensional optical lattices. Specifically, we investigate a …