Atomtronics deals with matter-wave circuits of ultracold atoms manipulated through
magnetic or laser-generated guides with different shapes and intensities. In this way, new …

Atomtronics is an emerging field that aims to manipulate ultracold atom moving in matter-
wave circuits for fundamental studies in both quantum science and technological …

This theoretical work initiates contact between two frontier disciplines of physics, namely,
atomic superfluid rotation and cavity optomechanics. It considers an annular Bose-Einstein …

Persistent currents flowing in spatially closed tracks define one of the most iconic concepts
in mesoscopic physics. They have been studied in solid-state platforms such as superfluids …

Recently, a method has been proposed to detect the rotation of a ring Bose-Einstein
condensate, in situ, in real-time, and with minimal destruction by using a cavity driven with …

Quantum interferometry and quantum information processing have been proposed for Bose-
Einstein condensates (BECs), but BECs are described in complicated ways such as using …

We present numerical simulations of the cavity optomechanical detection of persistent
currents and bright solitons in an atomic Bose-Einstein condensate confined in a ring trap …

We present the design, implementation, and detailed experimental characterization and
comparison with numerical simulations of twodimensional magneto-optical traps (MOTs) of …

We demonstrate the preparation and coherent control of the angular momentum state of a
two-ion crystal. The ions are prepared with an average angular momentum of 7850 ℏ freely …

Persistent currents--inviscid quantized flow around an atomic circuit--are a crucial building
block of atomtronic devices. We investigate how acceleration influences the transfer of …