WE-A5.2P.1
Investigation of Splitting Limit for Inverse-Designed, Super-Compact Beam Splitter for Photonic Quantum Computers
A. Emre Akman, TOBB University of Economics and Technology, Türkiye; Mehmet Unlu, TOBB University of Economics and Technology, Kuantum Entegre Teknolojiler ve Sistemler, Türkiye
Session:
Quantum and Nanoscale Electromagnetics Oral
Track:
AP-S: Track 5: Electromagnetic Fundamentals
Location:
Huntington: Room 353
Session Time:
Wed, 15 Jul, 15:20 - 17:00
Presentation Time:
Wed, 15 Jul, 15:20 - 15:40
Session Co-Chairs:
Thomas Roth, Purdue University and Luis Enrique García Muñoz, Universidad Carlos III de Madrid
Presentation
Not logged in.
Not logged in.
Discussion
Not logged in.
Session WE-A5.2P
WE-A5.2P.1: Investigation of Splitting Limit for Inverse-Designed, Super-Compact Beam Splitter for Photonic Quantum Computers
A. Emre Akman, TOBB University of Economics and Technology, Türkiye; Mehmet Unlu, TOBB University of Economics and Technology, Kuantum Entegre Teknolojiler ve Sistemler, Türkiye
WE-A5.2P.2: Optically Reconfigurable AND/OR Logic Gates Based on the Casimir Effect Using Laser-Tunable Permittivity Materials.
Lucía Rodríguez Treviño, Miguel Sánchez Rodas, Jessica César Cuello, Luis Enrique García Muñoz, Universidad Carlos III de Madrid, Spain
WE-A5.2P.3: Transient Maxwell-Quantum Transport Simulation of Nanoscale Devices in the THz Regime
Hongyang Liu, Dan Jiao, Purdue University, United States
WE-A5.2P.4: Hamiltonian Formulation of Coupled Systems
Weng Cho Chew, Purdue University, United States; Aiyin Liu, Christopher Ja-Yun Ryu, U of Illinois, United States; Dong-Yeop Na, POSTECH, Korea (South)
Resources
No resources available.