People: Aditya Venkatramani

Harvard
avenkatramani@physics.harvard.edu
26-335
Lab 26-348
Lukin
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Graduate Student
Publications
  1. W. Xu, A. Venkatramani, S. Cantu, T. Sumarac, and Valentin Klusener. Fast Preparation and Detection of a Rydberg Qubit using Atomic Ensembles. Physical Review Letters, 127(050501), July 2021.
  2. A. Venkatramani Quantum nonlinear optics: controlling few-photon interactions. Harvard University, 2020.
  3. S. Cantu, A. Venkatramani, W. Xu, L. Zhou, M. Lukin, V. Vuletic, and B. Jelenković. Repulsive photons in a quantum nonlinear medium. Nature Physics, 16:921–925 , 2020.
  4. Q. Liang, A. Venkatramani, S. Cantu, T. Nicholson, M. Gullans, A. Gorshkov, J. Thompson, M. Lukin, V. Vuletic, and C. Chin. Observation of three-photon bound states in a quantum nonlinear medium. Science, 359(6377):783-786, 2017.
  5. J. Thompson, T. Nicholson, Q. Liang, S. Cantu, A. Venkatramani, M. Lukin, V. Vuletic, I.A. Fedorov, D. Viscor, and T. Pohl. Symmetry-protected collisions between strongly interacting photons. Nature January 2017.
News
Sat June 13, 2020

‘Photon crystals’ could be made using Rydberg atoms

Physicists in the US have come up with a way of making photons repel each other by sending them through an ultracold atomic gas. This astonishing feat could lead to the creation of “photon crystals” and exotic quantum states such as a Mott insulator.   Image caption: In vacuum optical system for photon-photon interactions.
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News type:
Research Highlights
Mon March 30, 2020

Repulsive photons in a quantum nonlinear medium

Photons, the smallest energy carriers of light, interact extremely weakly in vacuum. However, realizing strongly interacting photons at the individual photon level is fascinating, as it allows people to use light to control light. This opens the possibility to implement quantum information science, to design all-optical quantum devices, and to form novel quantum many-body states...
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News type:
Research Highlights