BF5*.4
Development of an all-dielectric quantum-based RF field sensor for electric field calibrations
William Watterson, University of Colorado Boulder, United States; Alexandra Artusio-Glimpse, Nikunjkumar Prajapati, Matthew Simons, Christopher Holloway, National Institute of Standards and Technology, United States
Session:
BF5*: Quantum Technology Applications in Electromagnetics, Metrology, and Remote Sensing Lecture
Track:
Special Sessions
Location:
Room 151
Presentation Time:
Wed, 8 Jan, 14:30 - 14:50 MT (UTC -7)
Session Co-Chairs:
Saba Mudaliar, Air Force Research Laboratory and Thomas Roth, Purdue University and Matthew Simons, National Institute of Standards and Technology
Presentation
Discussion
Resources
No resources available.
Session BF5*
BF5*.1: Maxwell-Schrödinger Modeling of Multi-Qubit Effects in a Superconducting Circuit Quantum Device
Ghazi Khan, Thomas Roth, Purdue University, United States
BF5*.2: Hybrid Quantum-Classical Algorithms for Satellite Swarm Optimization in Non-Terrestrial Networks
QI JIAN LIM, Zhen Peng, University of Illinois at Urbana-Champaign, United States
BF5*.3: Fast and Accurate Method for Doppler Averaging of Rydberg EIT Signals
Omar Nagib, Thad G. Walker, University of Wisconsin-Madison, United States
BF5*.4: Development of an all-dielectric quantum-based RF field sensor for electric field calibrations
William Watterson, University of Colorado Boulder, United States; Alexandra Artusio-Glimpse, Nikunjkumar Prajapati, Matthew Simons, Christopher Holloway, National Institute of Standards and Technology, United States
BF5*.5: Michael Faraday and the Quantum Field Theory
Akira Ishimaru, University of Washington, United States
BF5*.6: Dynamics of Quantized Signals in Random Media: A Transport Theoretic Model
Saba Mudaliar, Air Force Research Laboratory, United States
BF5*.7: Quantum sensing of 130 GHz blackbody radiation with Rydberg states of cold Rb atoms
Noah Schlossberger, Nikunjkumar Prajapati, Alexandra B. Artusio-Glimpse, Matthew T. Simons, National Institute of Standards and Technology, United States; Dixith Manchaiah, Dangka Shylla, William J. Watterson, Charles Patrick, Adil Meraki, Rajavardhan Talashila, University of Colorado, Boulder, United States; Christopher L. Holloway, National Institute of Standards and Technology, United States
BF5*.8: Electric Field Detection with High Angular Momentum Rydberg Receivers in the HF/VHF Bands and Beyond
David La Mantia, Baran Kayim, Michael Viray, Daniel Richardson, Ryan Westafer, Brian Sawyer, Robert Wyllie, Georgia Tech Research Institute, United States
BF5*.9: Performance Showdown: Rydberg Sensors vs. Electrically Small Antennas
Kathryn Nicolich, Kelly Backes, Neel Malvania, Zachary Hardesty-Shaw, Bonnie Schmittberger Marlow, Charles Fancher, MITRE, United States
BF5*.10: FDTD in Computational Electromagnetics and Quantum Transport
KAI REN, South Dakota School of Mines and Technology, United States
Contacts