People: Mihir Bhaskar

Graduate Student
Publications
  1. E. Knall, C. Knaut, R. Bekenstein, P. Stroganov, Y.Q. Huan, D. Levonian, H. Park, M. Bhaskar, M. Lukin, Daniel R. Assumpcao, Wenjie Gong, Pieter-Jan Stas, Bartholomeus Machielse, Michelle Chalupnik, Aziza Suleymanzade, Ralf Riedinger, and Marko Loncar. Efficient Source of Shaped Single Photons Based on an Integrated Diamond Nanophotonic System. ArXiv 2022.
  2. M. Bhaskar Diamond nanophotonic quantum networks. Harvard University, 2021.
  3. D. Levonian, B. Machielse, E. Knall, M. Bhaskar, C. Knaut, R. Bekenstein, H. Park, M. Lukin, Ralf Riedinger, and Marko Loncar. Optical Entanglement of Distinguishable Quantum Emitters. ArXiv 2021.
  4. M. Bhaskar, B. Machielse, D. Levonian, C. Nguyen, E. Knall, P. Stroganov, H. Park, D. Englund, D. Sukachev, M. Lukin, R. Riedinger, and M. Loncar. Experimental demonstration of memory-enhanced quantum communication. Nature, 580:60–64, 2020.
  5. C. Nguyen, D. Sukachev, M. Bhaskar, B. Machielse, D. Levonian, E. Knall, P. Stroganov, M. Burek, H. Park, M. Lukin, C. Chia, R. Riedinger, and M. Lončar. An integrated nanophotonic quantum register based on silicon-vacancy spins in diamond. Phys. Rev. B, 100(165428), 2019.
  6. C. Nguyen, D. Sukachev, M. Bhaskar, D. Levonian, E. Knall, P. Stroganov, H. Park, M. Lukin, R. Riedinger, and M. Lončar. Quantum network nodes based on diamond qubits with an efficient nanophotonic interface. Phys. Rev. Lett., 123(183602), 2019.
  7. R. Evans, M. Bhaskar, D. Sukachev, A. Sipahigil, M. Burek, B. Machielse, G. Zhang, A. Zibrov, H. Park, M. Lukin, C. T. Nguyen, E. Bielejec, and M. Loncar. Photon-mediated interactions between quantum emitters in a diamond cavity. Science November 2018.
  8. C. Nguyen, R. Evans, A. Sipahigil, M. Bhaskar, D. Sukachev, M. Lukin, V. Agafonov, V. A. Davydov, L. Kulikova, and F. Jelezko. All-optical nanoscale thermometry with silicon-vacancy centers in diamond. ArXiv 2017.
  9. D. Sukachev, A. Sipahigil, C. Nguyen, M. Bhaskar, R. Evans, M. Lukin, and F. Jelezko. Silicon-vacancy spin qubit in diamond: A quantum memory exceeding ten milliseconds with single-shot state readout. Phys. Rev. Lett. , 96(223602), 2017.