In recent years, an increasingly large variety of molecular species have been successfully
cooled to low energies, and innovative techniques continue to emerge to reach ever more …

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 …

Recent years have witnessed tremendous progress in creating and manipulating ground-
state ultracold polar molecules. However, the two-body loss regardless of the chemical …

Ensembles of particles governed by quantum mechanical laws exhibit intriguing emergent
behaviour. Atomic quantum gases,, liquid helium, and electrons in quantum materials,–all …

Ultracold atoms, molecules and ions provide a unique playground to explore chemistry at
ultracold temperatures. In this Review, we discuss what makes these systems particularly …

Ultracold polyatomic molecules offer opportunities in cold chemistry,, precision
measurements and quantum information processing,, because of their rich internal structure …

We demonstrate long rotational coherence of individual polar molecules in the motional
ground state of an optical trap. In the present, previously unexplored regime, the rotational …

A central requirement for the faithful implementation of large-scale lattice gauge theories
(LGTs) on quantum simulators is the protection of the underlying gauge symmetry. Recent …

Ultracold molecules have been proposed as a candidate platform for quantum science and
precision measurement because of their rich internal structures and interactions. Direct laser …

Quantum systems with SU (N) symmetry are paradigmatic settings for quantum many-body
physics. They have been studied for the insights they provide into complex materials and …