10-15 July 2022 • Denver, Colorado, USA

IEEE AP-S/URSI 2022

10-15 July 2022 • Denver, Colorado, USA

TU-A1.3P.4

An Operative Approach to Quantum Electrodynamics in Dispersive Dielectric Objects Based on a Polarization Modal Expansion

Carlo Forestiere, Giovanni Miano, University of Naples, Italy

Session:
Quantum Technology Related to Electromagnetics II

Track:
AP-S: Antennas

Location:
Capitol Ballroom 1 (HR)

Presentation Time:
Tue, 12 Jul, 14:20 - 14:40 Denver Time (UTC -7)

Session Co-Chairs:
Weng Chew, Purdue University and Thomas Roth, Purdue University
Presentation
Discussion
Session TU-A1.3P
TU-A1.3P.1: On the Use of Quantum Fourier Transform for Array Antenna Analysis
Paolo Rocca, Luca Tosi, Nicola Anselmi, Andrea Massa, ELEDIA@UniTN - University of Trento, Italy
TU-A1.3P.2: Toward a Fully-Coupled Semiclassical Model of Transmon Control Dynamics: Classical Case
Samuel Elkin, Thomas Roth, Purdue University, United States
TU-A1.3P.3: Nonlinear Plasmonic Metasurfaces as Efficient Entangled Single-Photon Pair Quantum Sources
Dhananjay Mishra, Christos Argyropoulos, University of Nebraska Lincoln, United States
TU-A1.3P.4: An Operative Approach to Quantum Electrodynamics in Dispersive Dielectric Objects Based on a Polarization Modal Expansion
Carlo Forestiere, Giovanni Miano, University of Naples, Italy
TU-A1.3P.5: Comparison of Hall Mobility and Carrier Density of Thin Black Phosphorus Exfoliated from Bulk Crystals Provided by Various Vendors
Katie Welch, Mahmudul Doha, Zachary Uttley, Arash Fereidouni, Abayomi Omolewu, Jose Santos, Magda El-Shenawee, Hugh Churchill, University of Arkansas, United States
TU-A1.3P.6: Quantum measurements certification by emulating bright quantum states with mixtures of semi-classical states
Samaneh Pakniyat, George W Hanson, University of Wisconsin Milwaukee, United States; Alexander Mikhalychev, Dmitri Mogilevtsev, Institute of Physics, National Academy of Sciences of Belarus, Belarus
TU-A1.3P.7: A Relative Quantum Efficiency Based Fast-Ranging Algorithm in Poor Environment
Wei He, Yong Wang, Mu Zhou, Liangbo Xie, Chongqing University of Posts and Telecommunications, China
TU-A1.3P.8: Light quantum positioning method based on integrated coincidence counting and adaptive light source selection
Jing Zhang, Mu Zhou, Wei Nie, Wei He, Chongqing university of posts and telecommunications, China
TU-A1.3P.9: Two-Stream Feature Fusion Convolutional Network Based Target Recognition for Entangled Light Quantum Imaging
Huishi Xia, Yong Wang, Mu Zhou, Liangbo Xie, Xiaolong Yang, School of Communication and Information Engineering, Chongqing University of Posts and Telecommunications, China
TU-A1.3P.10: Entangled Quantum Imaging in Nikishov Underwater Turbulence Environment
Jingyang Cao, Wei Nie, Mu Zhou, School of Communication and Information Engineering Chongqing University of Posts and Telecommunications,, China
Resources
No resources available.