Blind qubit state disentanglement with Quantum processing: Principle, criterion and algorithm using measurements along two directions

机译：量子处理的盲量子位解缠结：原理，判据和算法，使用沿两个方向的测量

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In the framework of Blind Quantum Source Separation, we investigate the adaptation of a separating system which receives coupled quantum bit (qubit) states and processes them with quantum means in its feedforward path, to uncouple them. We propose the first separation principle which ensures that the output qubit states of this system are disentangled and that they restore the non-entangled source qubit states up to limited indeterminacies. This separation principle exploits measurements of output spin components along two directions and has some links with the non-quantum Independent Component Analysis (ICA) principle. It opens the way to various practical separation criteria and algorithms, some of which are described here.

机译：在盲量子源分离的框架中，我们研究了接收耦合量子位（QUBit）状态的分离系统的适应，并在其前馈路径中使用量子装置处理它们，以使其耦合。我们提出了第一个分离原则，确保该系统的输出量子位态被解除不诚位，并且它们恢复了非纠缠源QUBET状态，达到有限的不确定条件。该分离原理利用两个方向的输出旋转部件的测量，并具有一些与非量子独立分量分析（ICA）原理的链接。它打开了各种实际分离标准和算法的方式，其中一些在这里描述。

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《IEEE International Conference on Acoustics, Speech and Signal Processing》|2014年|6221-6225|共5页
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Deville Yannick; Deville Alain;
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blind source separation; entanglement; independent component analysis; quantum bit (qubit); unsupervised learning;

机译：盲源分离纠缠独立成分分析;量子位（qubit）;无监督学习;

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专利

1. Blind quantum source separation: Quantum-processing qubit uncoupling systems based on disentanglement [J] . Deville Yannick, Deville Alain Digital Signal Processing . 2017,第期

机译：盲量子源分离：基于解剖学的量子处理量子位解耦系统
2. Principles and Algorithms of Data Processing by the Results of Panoramic Detection/Direction Finding [J] . V. A. Ufaev, D. V. Ufaev, D. V. Khripushin Telecommunications and Radio Engineering . 2008,第6期

机译：全景检测/方向寻找结果处理数据的原理和算法
3. Implementation of a Deutsch-like quantum algorithm utilizing entanglement at the two-qubit level on an NMR quantum-information processor - art. no. 034101 [J] . Dorai K., Kumar A., Arvind. Physical Review, A. Atomic, molecular, and optical physics . 2001,第3期

机译：利用NMR量子信息处理器上的两个量子位级纠缠实现类似Deutsch的量子算法-art。没有。 034101
4. Blind qubit state disentanglement with Quantum processing: Principle, criterion and algorithm using measurements along two directions [C] . Deville Yannick, Deville Alain IEEE International Conference on Acoustics, Speech and Signal Processing . 2014

机译：盲目QUBBIT状态解体与量子处理：原理，标准和算法沿两个方向测量
5. Monolithically Integrated FDSOI CMOS Electron- and Hole-quantum Dot Qubits and Readout Electronics for Large-scale Quantum Computing Processors [D] . ?Bonen, Shai 2020

机译：单片集成 CMOS FDSOI 电子 - 性和空穴量子点量子比特和读出电子器件的大规模量子计算处理器
6. Subpixelic Measurement of Large 1D Displacements: Principle Processing Algorithms Performances and Software [O] . Valérian Guelpa, Guillaume J. Laurent, Patrick Sandoz, 2014

机译：一维大位移的亚像素测量：原理处理算法性能和软件
7. Implementation of a Deutsch-like quantum algorithm utilizing entanglement at the two-qubit level on an NMR quantum-information processor [O] . Dorai Kavita, Arvind *, Kumar Anil 2001

机译：在NMR量子信息处理器上利用两个量子位的纠缠实现类似Deutsch的量子算法
8. Compiling Quantum Algorithms for Architectures with Multi-qubit Gates (Open Access, Publisher's Version). [R] . Martinez, E. A., Monz, T., Nigg, D., 2016

机译：编译具有多量子比特门的体系结构的量子算法（开放存取，发布者版本）。

Blind qubit state disentanglement with Quantum processing: Principle, criterion and algorithm using measurements along two directions

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