Martin T. Lichtman
Martin T. Lichtman
Visiting Assistant Professor of Physics
Physics and Astronomy
Carnegie Science Hall, Room 333
Post-Doctoral Associate, Joint Quantum Institute (NIST/UMD)
Ph.D. Physics and M.S. Physics, University of Wisconsin-Madison
M.S. Aeronautics and Astronautics, Stanford University
Sc.B. Mechanical Engineering, Brown University
Quantum computing … atomic physics … entanglement?
My research uses the tools of atomic physics to push the state-of-the-art in quantum computing. We have blurred the line between physics and information theory. In my work, I have implemented several ways of storing information in single trapped atoms, and then used the interactions of light and matter to manipulate that information in ways that defy classical physics.
In my Ph.D. work I built a 2D grid of single cesium atom qubits, the largest fully addressable quantum computer at the time. Following that, in my post-doc at the Joint Quantum Institute I built a quantum networking system of trapped barium and ytterbium ion qubits. Using entanglement and “spooky action at a distance” these ion qubits form a small quantum network.
I love teaching and looking forward to sharing my love of physics with Bates students this year in PHYS 107, 222 and 301! I run a quantum computing journal club which meets every Monday 12:05-1pm over lunch in the “fishbowl” area of the Commons. Students of any level or background are welcome and invited to this journal club, which is in spirit a language course designed to introduce you to the vernacular of this exciting and rapidly emerging field. The club will be of interest to students of Physics, Computational Studies (DCS), and more!
In my spare time, I am a competitive speed skater, and have even given talks on the physics of speed skating.
I am looking for research students of all years. If you are interested in my research, the quantum computing journal club, or chatting about speed skating, please e-mail me or stop by Carnegie 333.
Rydberg mediated entanglement in a two-dimensional neutral atom qubit array
High Purity Single Photons Entangled with an Atomic Memory
Coherent Operations, Entanglement, and Progress Toward Quantum Search in a Large 2D Array of Neutral Atom Qubits
download via UW-Madison library