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 9181-9192 of 19,132
Work and efficiency fluctuations in a quantum Otto cycle with idle levels
Maron F. Anka, Thiago R. de Oliveira, Daniel Jonathan
Work extractability from energy eigenstates under optimized local operations
Shotaro Z. Baba, Nobuyuki Yoshioka, Takahiro Sagawa
Work fluctuation theorems with initial quantum coherence
Gianluca Francica, Luca Dell'Anna
Work statistics for Quantum Spin Chains: characterizing quantum phase transitions, benchmarking time evolution, and examining passivity of quantum states
Feng-Li Lin, Ching-Yu Huang
Work, Heat and Internal Energy in Open Quantum Systems: A Comparison of Four Approaches from the Autonomous System Framework
Anja Seegebrecht, Tanja Schilling
Workflow for practical quantum chemical calculations with quantum phase estimation algorithm: electronic ground and π-π* excited states of benzene and its derivatives†
Yusuke Ino, Misaki Yonekawa, Hideto Yuzawa, Yuichiro Minato, Kenji Sugisaki
XpookyNet: Advancement in Quantum System Analysis through Convolutional Neural Networks for Detection of Entanglement
Ali Kookani, Yousef Mafi, Payman Kazemikhah, Hossein Aghababa, Kazim Fouladi, Masoud Barati
Zero and Finite Temperature Quantum Simulations Powered by Quantum Magic
Andi Gu, Hong-Ye Hu, Di Luo, Taylor L. Patti, Nicholas C. Rubin, Susanne F. Yelin
Zero-field optical magnetometer based on spin-alignment
Adil Meraki, Lucy Elson, Nok Ho, Ali Akbar, Marcin Koźbiał, Jan Kołodyński, Kasper Jensen
ZZ-Interaction-Free Single-Qubit-Gate Optimization in Superconducting Qubits
Shu Watanabe, Yutaka Tabuchi, Kentaro Heya, Shuhei Tamate, Yasunobu Nakamura
'Sawfish' Photonic Crystal Cavity for Near-Unity Emitter-to-Fiber Interfacing in Quantum Network Applications
Julian M. Bopp, Matthias Plock, Tim Turan, Gregor Pieplow, Sven Burger, Tim Schröder
[Dissertation] Fundamental Limits to Single-Photon Detection
Tzula B. Propp