Universal Quantum Computing: Third Gen Prototyping Utilizing Relativistic ‘Trivector’ R-Qubit Modeling Surmounting Uncertainty

The Physics of Reality Pub Date : 2013-04-01 DOI:10.1142/9789814504782_0034
R. Amoroso, L. Kauffman, S. Giandinoto
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引用次数: 3

Abstract

We postulate bulk universal quantum computing (QC) cannot be achieved without surmounting the quantum uncertainty principle, an inherent barrier by empirical definition in the regime described by the Copenhagen interpretation of quantum theory - the last remaining hurdle to bulk QC. To surmount uncertainty with probability 1, we redefine the basis for the qubit utilizing a unique form of M-Theoretic Calabi-Yau mirror symmetry cast in an LSXD Dirac covariant polarized vacuum with an inherent ‘Feynman synchronization backbone’. This also incorporates a relativistic qubit (r-qubit) providing additional degrees of freedom beyond the traditional Block 2-sphere qubit bringing the r-qubit into correspondence with our version of Relativistic Topological Quantum Field Theory (RTQFT). We present a 3 rd generation prototype design for simplifying bulk QC implementation.
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通用量子计算:第三代原型利用相对论的“三向量”r -量子位建模超越不确定性
我们假设如果不克服量子不确定性原理,就无法实现批量通用量子计算(QC),这是哥本哈根量子理论解释所描述的制度中经验定义的固有障碍-批量QC的最后一个障碍。为了克服概率为1的不确定性,我们利用一种独特形式的m理论calbi - yau镜像对称在具有固有“费曼同步骨干”的LSXD狄拉克协变极化真空中重新定义了量子位的基础。它还包含了一个相对论量子比特(r-qubit),提供了超越传统Block 2-sphere量子比特的额外自由度,使r-量子位与我们的相对论拓扑量子场论(RTQFT)版本相对应。我们提出了简化批量QC实现的第三代原型设计。
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The Physics of Reality
The Physics of Reality
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Universal Quantum Computing: Third Gen Prototyping Utilizing Relativistic ‘Trivector’ R-Qubit Modeling Surmounting Uncertainty
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