People: Lawrence Cheuk

Postdoc
Publications
  1. Z. Lasner, D. Mitra, B.L. Augenbraun, L. Cheuk, Y. K. Lee, J. Doyle, M. Hiradfar, and S. Prabhu. Fast and High-Yield Loading of a D2 MOT of Potassium from a Cryogenic Buffer Gas Beam. Phys Rev A December 2021.
  2. L. Cheuk, L. Anderegg, Y. Bao, S. Burchesky, W. Ketterle, K. Ni, J. Doyle, and Scarlett Yu. Observation of Collisions between Two Ultracold Ground-State CaF Molecules. ArXiv January 2020.
  3. L. Cheuk, L. Anderegg, Y. Bao, S. Burchesky, S. Yu, W. Ketterle, K. Ni, and J. Doyle. Observation of Collisions between Two Ultracold Ground-State CaF Molecules. Physical Review Letters, 125(043401), July 2020.
  4. L. Anderegg, L. Cheuk, Y. Bao, S. Burchesky, W. Ketterle, K. Ni, and J. Doyle. An Optical Tweezer Array of Ultracold Molecules. ArXiv 2019.
  5. L. Anderegg, L. Cheuk, Y. Bao, S. Burchesky, W. Ketterle, K. Ni, and J. Doyle. An optical tweezer array of ultracold molecules. Science, 365(6458):1156-1158, September 2019.
  6. M. Nichols, L. Cheuk, M. Okan, T. Hartke, E. Mendez, H. Zhang, M. Zwierlein, T. Senthil, and E. Khatami. Spin Transport in a Mott Insulator of Ultracold Fermions. Science, 363(383), January 2019.
  7. L. Anderegg, B.L. Augenbraun, Y. Bao, S. Burchesky, L. Cheuk, W. Ketterle, and J. Doyle. Laser Cooling of Optically Trapped Molecules. Nature, 14:890–893, 2018.
  8. L. Cheuk, L. Anderegg, B.L. Augenbraun, Y. Bao, S. Burchesky, W. Ketterle, and J. Doyle. Λ-Enhanced Imaging of Molecules in an Optical Trap. Phys. Rev. Lett, 121(083201), August 2018.
  9. L. Cheuk, M. Nichols, K. Lawrence, M. Okan, H. Zhang, and M. Zwierlein. Observation of 2D fermionic Mott insulators of $^{40}$K with single-site resolution. Phys. Rev. Lett., 116(235301), June 2016.
  10. L. Cheuk, M. Nichols, K. Lawrence, M. Okan, H. Zhang, M. Zwierlein, E. Khatami, N. Trivedi, T. Paiva, and M. Rigol. Observation of Spatial Charge and Spin Correlations in the 2D Fermi-Hubbard Model. Science , 353:1260-1264 , September 2016.
  11. L. Cheuk, M. Nichols, M. Okan, V. Ramasesh, W. Bakr, T. Lompe, M. Zwierlein, and T. Gersdorf. A Quantum Gas Microscope for Fermionic Atoms. Phys. Rev. Lett., 114:193001, May 2015.
  12. L. Cheuk, A. Sommer, T. Yefsah, W. Bakr, and Z. Hadzibabic. Spin-Injection Spectroscopy of a Spin-Orbit Coupled Fermi Gas. Phys. Rev. Lett., 109:095302, 2012.
News
Mon July 20, 2020

Controlled Collisions of Exactly two Ultracold Molecules

One of the fundamental questions in the study of ultracold polar molecules is “what happens when two molecules collide at ultracold temperatures?” Knowing whether the molecules undergo chemical reactions, form long lived complexes, change internal state, or bounce off each other carries important implications which will guide future research directions. Our recent experiment explores this...
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Thu February 27, 2020

Laser-cooling and Optical Trapping of Diatomic Molecules

Ultracold molecules have been proposed as a rich resource for many applications ranging from precision measurements and quantum metrology to quantum simulation and quantum information processing. The benefits of molecules in all these applications arise from the many internal degrees of freedom in a molecule. For example, even with the simplest diatomic molecules, one has...
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Tue January 29, 2019

Spin Transport in a Mott Insulator of Ultracold Fermions

Superconductivity is a phenomenon in materials whereby electron pairs can flow freely without resistance. As a consequence, no energy is lost while electrical current passes through the superconductor. The benefits, therefore, of superconducting materials which operate at room temperature are countless, and range from revolutionizing the electrical power transmission industry, to providing sweeping improvements in...
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Wed October 17, 2018

Improved Measurement of the Electron’s Electric Dipole Moment

Although the Standard Model of particle physics, one of the triumphs of modern physics, accurately describes all particle physics measurements made in laboratories so far, it is unable to answer many questions that arise from cosmological observations, such as the long-standing puzzle of why matter dominates over antimatter throughout the observable universe. To explain these...
News type:
Sat September 1, 2018

Laser-cooling and Optical Trapping of Diatomic Molecules

Ultracold molecules have been proposed as a rich resource for many applications ranging from precision measurements and quantum metrology to quantum simulation and quantum information processing. The benefits of molecules in all these applications arise from the many internal degrees of freedom in a molecule. For example, even with the simplest two-atom diatomic molecules, one...
News type:
Tue September 4, 2012

Spin-Injection Spectroscopy of a Spin-Orbit Coupled Fermi gas

Wolfgang Ketterle, the John D. MacArthur Professor of Physics, was awarded a prize for graduate education for his courses 8.421 (Atomic and Optical Physics) and 8.422 (Atomic and Optical Physics II).
News type:
Mon January 23, 2012

Viewpoint: Fermion Pairing in Flatland

Hongkun Park and Wolfgang Ketterle have been chosen as the 2016 class of National Security Science and Engineering Faculty Fellows,