Litcius/Paper detail

Excited-state quantum phase transitions in spin-orbit-coupled Bose gases

Josep Cabedo, Alessio Celi

2021Physical Review Research24 citationsDOIOpen Access PDF

Abstract

Excited-state quantum phase transitions depend on and reveal the structure of the whole spectrum of many-body systems. While they are theoretically well understood, finding suitable signatures and detecting them in actual experiments remains challenging. For instance, in spinor gases, excited-state phases have been identified and characterized through a topological order parameter that is challenging to measure in experiments. Here we propose the Raman-dressed spin-orbit-coupled gas as a novel platform to explore excited-state quantum phase transitions. In a weakly coupled regime, the dressed system is equivalent to a spinor gas with tunable spin-spin interactions. Through this equivalence we are able to identify excited-state phases in the Raman-dressed Bose gas. The phases are characterized by the behavior of the spatial density modulations, or stripes, induced by spin-orbit coupling, and can in principle be measured in current state-of-the-art experiments with ultracold atoms. Conversely, we show that the properties of the excited phase can be exploited to prepare stripe states with large and stable density modulations.

Topics & Concepts

Excited statePhysicsSpinorSpin (aerodynamics)Spin–orbit interactionQuantum mechanicsCondensed matter physicsAtomic physicsThermodynamicsCold Atom Physics and Bose-Einstein CondensatesStrong Light-Matter InteractionsSpectroscopy and Laser Applications