LOH HuanqianPhD, University of Colorado, USA (2013)
President's Assistant Professor
Office : S14-03-07 | Tel : (65) 6601 6193
Email : email@example.com
Our lab focuses on the manipulation of molecules at the single-molecule, single-quantum-state level. To access this regime, we will develop methods to precisely control the motion, internal quantum states, and spatial arrangement of individual molecules. These molecular building blocks will be used to study few- to many-body physics and quantum chemistry, with an eye towards quantum simulation of new materials and quantum data storage.
Ultracold molecules exhibit long nuclear spin coherence times, making them promising candidates for quantum memory.
"Second-Scale Nuclear Spin Coherence Time of Ultracold NaK Molecules", J. W. Park, Z. Z. Yan, H. Loh, S. A. Will, and M W. Zwierlein, Science 357, 372 (2017).
"Coherent Microwave Control of Ultracold NaK molecules", S. A. Will, J. W. Park, Z. Z. Yan, H. Loh, and M. W. Zwierlein, Phys. Rev. Lett. 116, 225306 (2016).
"Zeeman-Splitting-Assisted Quantum Logic Spectroscopy of Trapped Ions", H. Loh, S. Ding, R. Hablutzel, G. Maslennikov, and D. Matsukevich, Phys. Rev. A (R) 90, 061402 (2014).
"Microwave Control of Trapped-Ion Motion Assisted by a Running Optical Lattice", S. Ding, H. Loh, R. Hablutzel, M. Gao, G. Maslennikov, and D. Matsukevich, Phys. Rev. Lett. 113, 073002 (2014).
"Precision Spectroscopy of Polarized Molecules in an Ion Trap", H. Loh, K. C. Cossel, M. Grau, K.-K. Ni, E. R. Meyer, J. L. Bohn, J. Ye, and E. A. Cornell, Science 342, 1220 (2013).
Affiliations & Links
- Singapore NRF fellow
- Loh Huanqian Group, CQT