Building compact, rugged and effective optical entanglement systems for experiments including a satellite-borne test of entanglement. Has an active interest in nonlinear optics.

Website:
http://www.quantumlah.org/AlexLinggroup

Implements quantum information building blocks with photons and atoms, with expertise in entangled photon pair sources, single photon detection and unconventional atom-photon interactions.

Website:
http://www.qolah.org/

Develops methods to prepare, manipulate and detect the internal states of trapped molecular ions for spectroscopy, precision measurements and quantum information processing.

Website:
http://dzmitrylab.quantumlah.org/

Experiments with ultracold polar molecules and atomic fermi gases for simulation of many-body quantum systems and ultracold chemistry. Further interest in laser spectroscopy, frequency combs, and atom interferometry.

Website:
http://qmatter.quantumlah.org/

Focuses on controlling molecules at the single-molecule, single-quantum-state level for few- to many-body physics and quantum chemistry studies. Interested in using molecules for quantum simulation and information storage.

Website:
https://lohlab.quantumlah.org/

Prepares ion trap systems with goals including emulating condensed matter systems and tests of fundamental physics. Also interested in using ions for information processing and metrology.

Website:
http://coldiongroup.wixsite.com/index

Focuses on the interfacing of atoms and photons via cavity QED for quantum information applications and precision metrology.

Website:
http://microtraps.quantumlah.org/

Works on superconducting atom chips, Bose-Einstein condensates, miniaturized optical systems for quantum information processing and a portable atom gravimeter.

Website:
http://www1.spms.ntu.edu.sg/~rdumke/

Studies quantum logic with Rydberg-dressed strontium trapped in optical lattices. Also studies squeezed state generation using Rydberg dressing to beat the standard quantum limit to clock precision

Website:
https://nicholsonlabs.quantumlah.org/

Explores the coherent excitation and manipulation of cold Rydberg gases. Aims at investigating quantum many-body physics and quantum optics in such systems.

Website:
http://rydberg.quantumlah.org/