Understanding strongly correlated phases of matter, such as the quark–gluon plasma and
neutron stars, and in particular the dynamics of such systems, for example, following a …

Superconductivity and superfluidity of fermionic and bosonic systems are remarkable many-
body quantum phenomena. In liquid helium and dilute gases, Bose and Fermi superfluidity …

Hydrodynamics accurately describe relativistic heavy-ion collision experiments well before
local thermal equilibrium is established. This unexpectedly rapid onset of hydrodynamics …

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 …

We convert a strongly interacting ultracold Bose gas into a mixture of atoms and molecules
by sweeping the interactions from resonant to weak. By analyzing the decay dynamics of the …

We study the dynamics of an initially degenerate homogeneous Bose gas after an
interaction quench to the unitary regime at a magnetic Feshbach resonance. As the cloud …

We study the dynamics of a zero-temperature Bose condensate following a sudden quench
of the scattering length from noninteracting to unitarity (infinite scattering length). We apply …

We study the quench of a degenerate ultracold Bose gas to the unitary regime, where
interactions are as strong as allowed by quantum mechanics. We lay the foundation of a …

In a recent experiment with ultracold trapped Rb 85 atoms, Makotyn et al. studied a quantum-
degenerate Bose gas in the unitary limit where its scattering length is infinitely large. We …

We investigate dynamical three-body correlations in the Bose gas during the earliest stages
of evolution after a quench to the unitary regime. The development of few-body correlations …