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LOv-Calculus: A Graphical Language for Linear Optical Quantum Circuits

International Symposium on Mathematical Foundations of Computer Science Pub Date : 2022-04-25 DOI:10.4230/LIPIcs.MFCS.2022.35
A. Cl'ement, Nicolas Heurtel, Shane Mansfield, S. Perdrix, B. Valiron
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引用次数: 12

Abstract

We introduce the LO v -calculus, a graphical language for reasoning about linear optical quantum circuits with so-called vacuum state auxiliary inputs. We present the axiomatics of the language and prove its soundness and completeness: two LO v -circuits represent the same quantum process if and only if one can be transformed into the other with the rules of the LO v -calculus. We give a confluent and terminating rewrite system to rewrite any polarisation-preserving LO v -circuit into a unique triangular normal form, inspired by the universal decomposition of Reck et al. (1994) for linear optical quantum circuits. 2012
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线性光学量子电路的图形语言
我们介绍了LO - v演算,这是一种用于推理具有所谓真空态辅助输入的线性光学量子电路的图形语言。我们给出了这种语言的公理化,并证明了它的完备性:两个LO - v电路表示相同的量子过程当且仅当其中一个电路可以用LO - v -微积分的规则转化为另一个电路。受Reck等人(1994)对线性光学量子电路的普遍分解的启发,我们给出了一个合流和终止重写系统,将任何保持偏振的LO - v电路重写为唯一的三角形范式。2012
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International Symposium on Mathematical Foundations of Computer Science
International Symposium on Mathematical Foundations of Computer Science
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