Scalable multipartite entanglement created by spin exchange in an optical lattice
Ultracold atoms in optical lattices form a competitive candidate for quantum computation
owing to the excellent coherence properties, the highly parallel operations over spins, and …
owing to the excellent coherence properties, the highly parallel operations over spins, and …
Interrelated thermalization and quantum criticality in a lattice gauge simulator
Gauge theory and thermalization are both topics of essential importance for modern
quantum science and technology. The recently realized atomic quantum simulator for lattice …
quantum science and technology. The recently realized atomic quantum simulator for lattice …
High-powered optical superlattice with robust phase stability for quantum gas microscopy
MD Li, W Lin, A Luo, WY Zhang, H Sun, B **ao… - Optics …, 2021 - opg.optica.org
Optical superlattice has a wide range of applications in the study of ultracold atom physics.
Especially, it can be used to trap and manipulate thousands of atom pairs in parallel which …
Especially, it can be used to trap and manipulate thousands of atom pairs in parallel which …
A compact gain-enhanced microwave helical antenna for 87Rb atomic experiments
We present a compact and gain-enhanced microwave helical antenna for manipulating
ultracold 87 Rb atoms coherently. By replacing the reflecting plate with an enhancing cup …
ultracold 87 Rb atoms coherently. By replacing the reflecting plate with an enhancing cup …
Functional building blocks for scalable multipartite entanglement in optical lattices
Featuring excellent coherence and operated parallelly, ultracold atoms in optical lattices
form a competitive candidate for quantum computation. For this, a massive number of …
form a competitive candidate for quantum computation. For this, a massive number of …
Efficiently extracting multi-point correlations of a Floquet thermalized system
Nonequilibrium dynamics of many-body systems is challenging for classical computing,
providing opportunities for demonstrating practical quantum computational advantage with …
providing opportunities for demonstrating practical quantum computational advantage with …
Robust site-resolved addressing via dynamically tracking the phase of optical lattices
Single-site-resolved addressing offers an unprecedented capability of manipulating atoms in
optical lattices. We demonstrate a robust site-resolved addressing by locking the position of …
optical lattices. We demonstrate a robust site-resolved addressing by locking the position of …
[HTML][HTML] A battery-powered floating current source of 100 A for precise and fast control of magnetic field
In various leading-edge ultracold atom experiments in fields such as quantum simulation,
quantum computing, and quantum precision measurement, precise and fast control of the …
quantum computing, and quantum precision measurement, precise and fast control of the …
Observation of counterflow superfluidity in a two-component Mott insulator
The counterflow superfluidity (CSF) was predicted two decades ago. Counterintuitively,
while both components in the CSF have fluidity, their correlated counterflow currents cancel …
while both components in the CSF have fluidity, their correlated counterflow currents cancel …
Spin current in a spinor Bose–Einstein condensate induced by a gradient magnetic field
L Tian, N Zheng, J Jian, W Liu, J Wu, Y Li, Y Fu… - Chinese …, 2022 - iopscience.iop.org
We develop a research of spin currents in a 23 Na spinor Bose–Einstein condensate (BEC)
by applying a magnetic field gradient. The spin current is successfully induced by the spin …
by applying a magnetic field gradient. The spin current is successfully induced by the spin …