Since the achievement of quantum degeneracy in gases of chromium atoms in 2004, the
experimental investigation of ultracold gases made of highly magnetic atoms has …

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 …

Ultracold polar molecules are promising candidate qubits for quantum computing and
quantum simulations. Their long-lived molecular rotational states form robust qubits, and the …

Entanglement is crucial to many quantum applications, including quantum information
processing, quantum simulation, and quantum-enhanced sensing. Because of their rich …

Laser cooling and trap**,, and magneto-optical trap** methods in particular, have
enabled groundbreaking advances in science, including Bose–Einstein condensation …

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 have important applications that range from quantum simulation and
computation to precision measurements probing physics beyond the Standard Model …

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

Molecules containing short-lived, radioactive nuclei are uniquely positioned to enable a
wide range of scientific discoveries in the areas of fundamental symmetries, astrophysics …

Ultracold polyatomic molecules have potentially wide-ranging applications in quantum
simulation and computation, particle physics, and quantum chemistry. For atoms and small …