10-15 July 2022 • Denver, Colorado, USA

IEEE AP-S/URSI 2022

10-15 July 2022 • Denver, Colorado, USA

TU-SP.2A.2

Review of Quantum Techniques for Hamiltonian Simulation and Applications in Integral Equation Analysis

Christopher Phillips, Vladimir Okhmatovski, University of Manitoba, Canada

Session:
Quantum Technology Related to Electromagnetics I

Track:
Special Sessions

Location:
Capitol Ballroom 2/3 (HR)

Presentation Time:
Tue, 12 Jul, 08:20 - 08:40 Denver Time (UTC -7)

Session Co-Chairs:
Weng Chew, Purdue University and Haizhi Song, University of Electronic Science and Technology of China and Thomas Roth, Purdue University
Presentation
Discussion
Session TU-SP.2A
TU-SP.2A.1: Using a Split-Ring Resonator for Improving the Sensitivity of Rydberg Atom-Based Sensors for Electric-Field Strength Measurements
Christopher Holloway, Nikunjkumar Prajapati, Alexandra Artusio-Glimpse, Samuel Berweger, Matthew Simons, National Institute of Standards and Technology, United States; Yoshiaki Kasahara, The University of Texas, Austin, United States; Andrea Alu, Advanced Science Research Center, City University of New York, NY, United States; Richard Ziolkowski, University of Technology Sydney, Ultimo NSW, Australia, United States
TU-SP.2A.2: Review of Quantum Techniques for Hamiltonian Simulation and Applications in Integral Equation Analysis
Christopher Phillips, Vladimir Okhmatovski, University of Manitoba, Canada
TU-SP.2A.3: Quantum Integer Programming for Super-resolution Array Beamforming
Qi Jian Lim, Zhen Peng, University of Illinois at Urbana-Champaign, United States
TU-SP.2A.4: Preparation of Quantum Superposition and Entanglement of Flying Coherent State Microwave Photons Using Superconducting Quantum Circuits
Zhiling Wang, Zenghui Bao, Yan Li, Hongyi Zhang, Luming Duan, Tsinghua University, China
TU-SP.2A.5: Integrated Gaussian Filtering and Wavelet Transform Based Coincidence Count Filtering for Quantum Imaging
Changyin Ji, Mu Zhou, Xiaolong Yang, Jingyang Cao, School of Communication and Information Engineering Chongqing University of Posts and Telecommunications, China
TU-SP.2A.6: Derivation of a Semiclassical Model for a Transmon Capacitively Coupled to a Transmission Line
Thomas Roth, Purdue University, United States
TU-SP.2A.7: Entanglement Mediated by DC Current Induced Nonreciprocal Graphene Plasmon Polaritons
Jay Berres, George Hanson, University of Wisconsin-Milwaukee, United States; Seyyed Ali Hassani Gangaraj, University of Wisconsin-Madison, United States
TU-SP.2A.8: Numerical Simulations of Quantum Plasmonic Hong-Ou-Mandel Effects
Dong-Yeop Na, Weng Chew, Purdue University, United States
TU-SP.2A.9: Semiclassical Quantum Electromagnetic Model of Rydberg Atom-Based Receivers
Guoda Xie, Zhixiang Huang, Anhui University, China; Wei E. I. Sha, Zhejiang University, China
Resources
No resources available.