Trapped-Ion Quantum Computing
19,132 papers
Trapped-Ion Quantum Computing Research Context
This Quantum Articles category organizes published quantum research papers so readers can browse focused work by topic, source, and year.
Showing 4825-4836 of 19,132
Theories of Superconducting Diode Effects
Daniel Shaffer, Alex Levchenko
Theory of Scalable Spin Squeezing with Disordered Quantum Dipoles
Avi Kaplan-Lipkin, Philip J. D. Crowley, Jonathan N. Hallén, Zilin Wang, Weijie Wu, Sabrina Chern, Chris R. Laumann, Lode Pollet, Norman Y. Yao
Theory of single-photon emission from neutral and charged excitons in a polarization-selective cavity
Luca Vannucci, Niels Gregersen
Thermal interaction-free ghost imaging
Shun Li, Jing-Yang Xiao Feng, Xiu-Qing Yang, Xiaodong Zeng, Xi-Hua Yang, M. Al-Amri, Zheng-Hong Li
Thermalization from quenching in coupled oscillators
M. Harinarayanan, Karthik Rajeev
Thermalization Rate of Light in Weakly Coupled Molecular Systems
Vladislav Yu. Shishkov
Thermodynamic decoupling in the deep-strong coupling regime
S. Palafox, M. Salado-Mejía, M. Santiago-García, R. Román-Ancheyta
Thermodynamic Probes of Multipartite Entanglement in Strongly Interacting Quantum Systems
Harsh Sharma, Sampriti Saha, A. S. Majumdar, Manik Banik, Himadri Shekhar Dhar
Thermodynamic sampling of materials using neutral-atom quantum computers
Bruno Camino, Mao Lin, John Buckeridge, Scott M. Woodley
Thermodynamics of the Fermi-Hubbard Model through Stochastic Calculus and Girsanov Transformation
Detlef Lehmann
Three Birds with One Stone: Improving Performance, Convergence, and System Throughput with Nest
Yuqian Huo, David Quiroga, Anastasios Kyrillidis, Tirthak Patel
Three-Axis Spin Squeezed States Associated with Excited-State Quantum Phase Transitions
Chon-Fai Kam