Demonstration of the no-hiding theorem on the 5-Qubit IBM quantum computer in a category-theoretic framework

Kalra Amolak Ratan; Gupta Navya; Behera Bikash K.; Prakash Shiroman; Panigrahi Prasanta K.

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Demonstration of the no-hiding theorem on the 5-Qubit IBM quantum computer in a category-theoretic framework

机译：在类别 - 理论框架中示范5 QUBIT IBM量子计算机上的无隐藏定理

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The quantum no-hiding theorem, first proposed by Braunstein and Pati (Phys Rev Lett 98:080502, 2007), was verified experimentally by Samal et al. (Phys Rev Lett 186:080401, 2011) using NMR quantum processor. Till then, this fundamental test has not been explored in any other experimental architectures. Here, we demonstrate the above no-hiding theorem using the IBM 5Q quantum processor. Categorical algebra developed by Coecke and Duncan (New J Phys 13:043016, 2011) has been used for better visualization of the no-hiding theorem by analyzing the quantum circuit using the ZX calculus. The experimental results confirm the recovery of missing information by the application of local unitary operations on the ancillary qubits.

机译：由Braunstein和Pati提出的量子无隐藏定理（Phy Rev Lett 98：080502,2007），通过Samal等人进行了实验验证。（Phys Rev Lett 186：080401,2011）使用NMR量子处理器。到那时，这种基本测试尚未在任何其他实验架构中探讨。在这里，我们使用IBM 5Q量子处理器展示上述无隐藏定理。由CoECKE和Duncan开发的分类代数（新J题目13：043016,2011）已被使用通过使用ZX微积分分析量子电路来更好地可视化无隐藏定理。实验结果通过在辅助Qubits上应用本地统一操作来确认缺失信息的恢复。

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来源
《Quantum information processing》 |2019年第6期|共13页
作者
Kalra Amolak Ratan; Gupta Navya; Behera Bikash K.; Prakash Shiroman; Panigrahi Prasanta K.;
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作者单位

Dayalbagh Educ Inst Dept Elect Engn Agra 282005 Uttar Pradesh India;

Indian Inst Technol Dept Phys Kanpur 208016 Uttar Pradesh India;

Indian Inst Sci Educ &

Res Kolkata Dept Phys Sci Mohanpur 741246 W Bengal India;

Dayalbagh Educ Inst Dept Elect Engn Agra 282005 Uttar Pradesh India;

Indian Inst Sci Educ &

Res Kolkata Dept Phys Sci Mohanpur 741246 W Bengal India;

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原文格式 PDF
正文语种 eng
中图分类自动信息理论;
关键词
IBM quantum experience; No-hiding theorem; Quantum information;

机译：IBM量子经验;无隐藏定理;量子信息;

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1. Demonstration of the no-hiding theorem on the 5-Qubit IBM quantum computer in a category-theoretic framework [J] . Kalra Amolak Ratan, Gupta Navya, Behera Bikash K., Quantum information processing . 2019,第6期

机译：在类别 - 理论框架中示范5 QUBIT IBM量子计算机上的无隐藏定理
2. Five Experimental Tests on the 5-Qubit IBM Quantum Computer [J] . Diego García-Martín, Germán Sierra Journal of Applied Mathematics and Physics . 2018,第7期

机译：在5-Qubit IBM Quantum计算机上进行的五项实验测试
3. Generalization and demonstration of an entanglement-based Deutsch-Jozsa-like algorithm using a 5-qubit quantum computer [J] . Gangopadhyay Sayan, Manabputra, Behera Bikash K., Quantum information processing . 2018,第7期

机译：使用5 QUBIT量子计算机的基于缠结的Deutsch-jozsa算法的概括与演示
4. STP: a simple theorem prover for IBM-PC compatible computers [C] . Blayne Mayfield, Timothy Baird Proceedings of the 1990 ACM SIGSMALL/PC symposium on small systems . 1990

机译：STP：适用于IBM-PC兼容计算机的简单定理证明器
5. A COMPLETENESS THEOREM AND A COMPUTER PROGRAM FOR FINDING THEOREMS DERIVABLE FROM GIVEN AXIOMS [D] . LEE, CHAR-TUNG -1

机译：完备定理和计算机程序，用于寻找从给定轴可推导的定理
6. Demonstration of entanglement assisted invariance on IBMs quantum experience [O] . Sebastian Deffner 2017

机译：纠缠辅助不变性对IBM量子经验的演示
7. Demonstration of the no-hiding theorem on the 5-Qubit IBM quantum computer in a category-theoretic framework [O] . Amolak Ratan Kalra, Navya Gupta, Bikash K. Behera, 2019

机译：在类别 - 理论框架中的5 Qubit IBM量子计算机上的无隐藏定理示范

Demonstration of the no-hiding theorem on the 5-Qubit IBM quantum computer in a category-theoretic framework

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