Universal Quantum Computing: Supervening Decoherence - Surmounting Uncertainty

Universal Quantum Computing: Supervening Decoherence – Surmounting Uncertainty
by: Richard L Amoroso
ISBN-10: 9813145994
ISBN-13: 9789813145993
Publication Date 出版日期: 2017-03-06
Print Length 页数: 608
This breakthrough volume touts having dissolved the remaining barriers to implementing Bulk Universal Quantum Computing (UQC),and as such most likely describes the most advanced QC development platform. Numerous books,hundreds of patents,thousands of papers and a Googolplex of considerations fill the pantheon of QC R&D. Of late QC mathemagicians claim QCs already exist; but by what chimeric definition. Does flipping a few qubits in a logic gate without an algorithm qualify as quantum computing? In physics,theory bears little weight without rigorous experimental confirmation,less if new,radical or a paradigm shift. This volume develops quantum computing based on ‘3rd regime’ physics of Unified Field Mechanics (UFM). What distinguishes this work from a myriad of other avenues to UQC under study? Virtually all R&D paths struggle with technology and decoherence. If highly favored room-sized cryogenically cooled QCs ever become successful,they would be reminiscent of the city block-sized Eniac computer of 1946. The QC prototype proposed herein is room temperature and tabletop. It is dramatically different in that it is not confined to the limitations of quantum mechanics; since it is based on principles of UFM the Uncertainty Principle and Decoherence no longer apply. Thus this QC model could be implemented on any other quantum platform!
Contents
Chapter 1 From Concepts To Conundrum
Chapter 2 Cornucopia Of Quantum Logic Gates
Chapter 3 Multiverse Cosmology: A New Basis For Reality
Chapter 4 A Revolution In The Conception Of Matter
Chapter 5 From Qubits To Relativistic (R-Qubits)
Chapter 6 Utility Of Unified Field Mechanics
Chapter 7 Surmounting Uncertainty Supervening Decoherence
Chapter 8 Measurement With Certainty
Chapter 9 Topological Quantum Field Theory
Chapter 10 Topological Quantum Computing
Chapter 11 A New Group Of Transformations
Chapter 12 Ontological-Phase Topological Field Theory
Chapter 13 New Classes Of Quantum Algorithms
Chapter 14 Class Ii Mesoionic Xanthines As Potential Ten Qubit Substrate Registers
Chapter 15 Universal Quantum Computing Prototype Modeling
解决了实施大容量通用量子计算（UQC）的其余障碍的这一突破性成果，最有可能描述了最先进的QC开发平台。许多书籍，数百项专利，数以千计的论文和Googolplex的考虑因素填补了QC研发的万神殿。后期的QC数学家声称QCs已经存在;而是通过什么嵌入式定义。在逻辑门中翻转几个量子位，没有算法有资格作为量子计算？在物理学中，理论的重量不大，没有严格的实验确认，如果是新的，激进的或范式的转变，则不大。该体系基于统一场力学（UFM）的“第三制度”物理学开发量子计算。将这项工作与无数其他途径区分开来，正在研究UQC？几乎所有的研发路径都与技术和解冻相结合。如果高度优惠的室内低温冷却的QCs成功，他们将会让人联想起1946年的城市大小的Eniac计算机。这里提出的QC原型是室温和桌面。它是截然不同的，它不仅限于量子力学的限制;因为它是基于UFM的原则，不确定性原则和解相干不再适用。因此，该QC模型可以在任何其他量子平台上实现！
目录
第一章从概念到难题
第2章量子逻辑门的聚宝盆
第三章多种宇宙论: 现实的新基础
第四章物质概念的革命
第5章从Qubits到相对论（R-Qubits）
第六章统一现场力学效用
第7章超越不确定性超级去相干
第8章确定性测量
第9章拓扑量子场理论
第10章拓扑量子计算
第11章新的变革小组
第十二章本体相拓扑场理论
第13章量子算法的新类
第十四章I型细胞间叶黄素作为潜在的十个基质底物寄存器
第15章通用量子计算原型建模

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