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Vladan Vuletic

单位:Department of Physics, MIT

研究方向:Laser cooling and trapping, quantum physics, quantum entanglement, quantum optics, quantum information processing

个人主页: http://www.rle.mit.edu/people/directory/vladan-vuletic/


Professor Vladan Vuletic is a principal investigator in the Research Laboratory of Electronics (RLE) at the Massachusetts Institute of Technology (MIT). In 1992, he earned the Physics Diploma with highest honors from the Ludwig-Maximilians-Universität München, and in 1997, a Ph.D. in Physics (summa cum laude) from the same institution.


While a postdoctoral researcher with the Max-Planck Institute for Quantum Optics in Garching, Germany, Professor Vuletic accepted a Lynen Fellowship at Stanford University in 1997. In 2000, he was appointed an Assistant Professor in the Department of Physics at Stanford and in June 2003 accepted an Assistant Professorship in Physics at MIT. He was promoted to Associate Professor in July 2004, and to Professor in 2011.


Professor Vuletic’s interests lie in many-body quantum mechanics and the experimental implementation of entangled many-body states. He is particularly interested in entangled states that can be used to overcome the so-called standard quantum limit in measurements, a limit that is associated with quantum mechanical measurements on collections of independent particles. His group concentrates on the light-atom interaction as a tool to generate non-classical states of atomic ensembles and of light. Recently, his group has demonstrated spin squeezing, a method to redistribute the quantum noise in atomic ensembles so as to improve the precision of an atomic clock beyond the standard quantum limit. His group has also demonstrated several techniques to induce strong interactions between individual photons. Among them are vacuum-induced transparency, a technique where the vacuum field inside an optical resonator renders an absorbing material transparent, and a strongly nonlinear medium that will transmit one photon but absorb two.


Keywords

atom cavity interaction, cavity cooling, cold collisions, molecule formation, Bose-Einstein condensation, laser spectroscopy, quantum computation, quantum optics, precision measurements


Selected Publications

11.04.2016

Atom-by-atom assembly of defect-free one-dimensional cold atom arrays

04.09.2014

Nanophotonic quantum phase switch with a single atom (Nature)

07.04.2013

All-Optical Switch and Transistor Gated by One Stored Photon (Science)

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