Creating, maintaining, and breaking of quantum entanglement in quantum operations

被引:0
|
作者
Bogdanov, Yu. I. [1 ]
Chernyavskiy, A. Yu. [1 ,3 ]
Holevo, A. S. [2 ]
Luckichev, V. F. [1 ]
Orlikovsky, A. A. [1 ]
Bantysh, B. I. [4 ]
机构
[1] Russian Acad Sci, Inst Phys & Technol, Moscow 117901, Russia
[2] Russian Acad Sci, Steklov Math Inst, Moscow, Russia
[3] Moscow MV Lomonosov State Univ, Fac Computat Math & Cybernet, Moscow, Russia
[4] Natl Res Univ Elect Technol MIET, Moscow, Russia
来源
INTERNATIONAL CONFERENCE MICRO- AND NANO-ELECTRONICS 2012 | 2012年 / 8700卷
关键词
quantum operations; quantum noise; modeling; quantum computers; quantum gates; quantum entanglement;
D O I
10.1117/12.2017517
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
We study the evolution of entanglement in quantum gates in terms of Choi-Jamiolkowski relative states negativity. SQiSW (generated by XY-interaction), CNOT and CZ gates are considered in ideal case and under amplitude and phase relaxation. In addition, we consider an important task of analyzing entanglement of "pure" noise, which is obtained by deducting an ideal gate from a noisy one.
引用
收藏
页数:9
相关论文
共 50 条
  • [41] A Note on Quantum Bell Nonlocality and Quantum Entanglement for High Dimensional Quantum Systems
    Tinggui Zhang
    Ya Xi
    Shao-Ming Fei
    International Journal of Theoretical Physics, 2021, 60 : 2909 - 2915
  • [42] Mathematical models of quantum noise
    Bogdanov, Yu. I.
    Chernyavskiy, A. Yu.
    Holevo, A. S.
    Luckichev, V. F.
    Orlikovsky, A. A.
    INTERNATIONAL CONFERENCE MICRO- AND NANO-ELECTRONICS 2012, 2012, 8700
  • [43] Experimental detection of quantum entanglement
    Ming Li
    Ming-Jing Zhao
    Shao-Ming Fei
    Zhi-Xi Wang
    Frontiers of Physics, 2013, 8 : 357 - 374
  • [44] Experimental detection of quantum entanglement
    Li, Ming
    Zhao, Ming-Jing
    Fei, Shao-Ming
    Wang, Zhi-Xi
    FRONTIERS OF PHYSICS, 2013, 8 (04) : 357 - 374
  • [45] Quantum Entanglement in Corpuses of Documents
    Lester Beltran
    Suzette Geriente
    Foundations of Science, 2019, 24 : 227 - 246
  • [46] Detecting entanglement of quantum channels
    Li, Chaojian
    Wang, Bang-Hai
    Wu, Bujiao
    Yuan, Xiao
    COMMUNICATIONS IN THEORETICAL PHYSICS, 2021, 73 (11)
  • [47] Rank of a tensor and quantum entanglement
    Bruzda, Wojciech
    Friedland, Shmuel
    Zyczkowski, Karol
    LINEAR & MULTILINEAR ALGEBRA, 2024, 72 (11): : 1796 - 1859
  • [48] Quantum entanglement and axion physics
    Nicolaidis, A.
    MODERN PHYSICS LETTERS A, 2022, 37 (04)
  • [49] Quantum entanglement in composite systems
    Sowa, A.
    THEORETICAL AND MATHEMATICAL PHYSICS, 2009, 159 (02) : 654 - 666
  • [50] Topological aspects of quantum entanglement
    Kauffman, Louis H.
    Mehrotra, Eshan
    QUANTUM INFORMATION PROCESSING, 2019, 18 (03)
12345