BF7*.1

Investigating Quantum Entanglement Using Canonical Quantization and Scattering Theory

Jie Zhu, Purdue University, United States; Dong-Yeop Na, Pohang University of Science and Technology, Korea (South); Weng Chew, Purdue University, United States
Session:
BF7*: Quantum Technology Applications in Electromagnetics and Remote Sensing Lecture
Track:
Special Sessions
Location:
Room 1B40
Presentation Time:
Thu, 11 Jan, 13:30 - 13:50 MST (UTC -7)
Session Co-Chairs:
Saba Mudaliar, Air Force Research Laboratory and Thomas Roth, Purdue University
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Presentation
Discussion
Resources
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Session BF7*
BF7*.1: Investigating Quantum Entanglement Using Canonical Quantization and Scattering Theory
Jie Zhu, Purdue University, United States; Dong-Yeop Na, Pohang University of Science and Technology, Korea (South); Weng Chew, Purdue University, United States
BF7*.2: Towards an Analytical Quantum Full-Wave Solution of a Transmon Qubit in a 3D Microwave Cavity
Soomin Moon, Thomas Roth, Purdue University, United States
BF7*.3: Efficient Sources of Entangled Single-Photon Pairs with Nonlinear Plasmonic Metasurfaces
Sky Semone, Christos Argyropoulos, The Pennsylvania State University, United States
BF7*.4: Rydberg Atom Based Sensors: Radio-Frequency Field Detection to Remote Sensing and Other Receiving Applications
Christopher Holloway, Andrew Rotunno, Samuel Berweger, Matthew Simons, Alexandra Artusio-Glimpse, Nikunjkumar Prajapati, Eric Norrgard, Stephen Eckel, NIST, United States; Noah Schlossberger, University of Colorado, United States
BF7*.5: Quantum Theory and Questions as Viewed from Classical EM
Akira Ishimaru, University of Washington, United States
BF7*.6: Quantum Statistical Aspects of Emission and Absorption in Remote Sensing and Imaging
Saba Mudaliar, Air Force Research Laboratory, United States
BF7*.7: Calculating Multi-Qubit Exchange Coupling Rates for Transmon Qubits Using a Field-Based Formalism
Ghazi Khan, Thomas Roth, Purdue University, United States
BF7*.8: Compact Cryocooled RF Direction Finder
Masoud Radparvar, Hypres, United States
BF7*.9: Sub-wavelength angle-of-arrival measurement at 1.1 GHz in a Rydberg vapor using a three-color, all near-infrared excitation
Eric Bottomley, Haoquan Fan, Shane Verploegh, Infleqtion, United States
BF7*.10: Computational electromagnetic challenges in designing superconducting qubit devices
Ebrahim Forati, Google Quantum AI, United States
Contacts