Quantum Simulation with Superconducting Circuits

By Alex Ruichao Ma

Department of Physics and Astronomy, Purdue University, West Lafayette, IN

View Presentation

Additional materials available (3)

Category

Online Presentations

Published on

Bio

Alex Ruichao Ma Alex Ruichao Ma received his Ph.D. in Physics from Harvard University in 2014, studying quantum simulation and many-body physics using ultra cold atoms in optical lattices. He was a Kadanoff-Rice postdoctoral fellow at the James Frank Institute, University of Chicago from 2015-2019, where he worked on quantum simulation in superconducting qubits. Alex joined Purdue University in August 2019. His experimental group focuses on quantum many-body physics and quantum information science using superconducting circuits. Alex is the recipient of the NSF CAREER Award in 2022. (Group website: www.ma-quantumlab.com)

Sponsored by

Toyota Research Institute of North America, Purdue College of Science, Purdue College of Engineering, Purdue Department of Chemistry, Purdue Department of Physics and Astronomy, Purdue School of Electrical and Computer Engineering, Purdue Quantum Science and Engineering Institute

Cite this work

Researchers should cite this work as follows:

  • Alex Ruichao Ma (2023), "Quantum Simulation with Superconducting Circuits," https://nanohub.org/resources/38221.

    BibTex | EndNote

Time

Location

WALC 1018, Purdue University, West Lafayette, IN

Tags

  1. chemistry
  2. quantum chemistry
  3. quantum computing
  4. quantum materials
  5. quantum science and information
  6. superconducting circuits
Quantum Simulation with Superconducting Circuits
  • Quantum Simulation with Superconducting Circuits 1. Quantum Simulation with Superc… 0
    00:00/00:00
  • Three things to cover 2. Three things to cover 26.526526526526528
    00:00/00:00
  • Motivation: Understanding quantum materials 3. Motivation: Understanding quan… 69.269269269269273
    00:00/00:00
  • Why are these models hard to simulate on a computer? 4. Why are these models hard to s… 124.39105772439106
    00:00/00:00
  • Wait… Don't we already have quantum computers? 5. Wait… Don't we already have … 256.42308975642311
    00:00/00:00
  • Quantum simulators 6. Quantum simulators 268.20153486820152
    00:00/00:00
  • Ma Lab @ Purdue 7. Ma Lab @ Purdue 424.75809142475811
    00:00/00:00
  • A lattice site for photon 8. A lattice site for photon 458.09142475809142
    00:00/00:00
  • Quantum simulator 9. Quantum simulator 557.65765765765764
    00:00/00:00
  • Observing the motion of the photons 10. Observing the motion of the ph… 643.27660994327664
    00:00/00:00
  • Open quantum systems 11. Open quantum systems 666.39973306639979
    00:00/00:00
  • Use dissipation to control quantum system: Example 12. Use dissipation to control qua… 763.69703036369708
    00:00/00:00
  • Use dissipation to control quantum system: Example 13. Use dissipation to control qua… 831.49816483149823
    00:00/00:00
  • Quantum systems coupled to baths… 14. Quantum systems coupled to bat… 908.60860860860862
    00:00/00:00
Pop Out