Universal quantum computing: supervening decoherencesurmounting uncertainty/ Richard L Amoroso
By: Amoroso, Richard L [author].
Publisher: New Jersey: World Scientific, 2017Description: xxiv, 608 pages, ills; 23cm.ISBN: 9789813145993.Subject(s): Computer Science  Quantum Computing  Quantum Theory  Artificial IntelligenceDDC classification: 006.3843Item type  Current location  Call number  Status  Date due  Barcode  Item holds  

Books 
ISI Library, Kolkata

006.3843 Am523 (Browse shelf)  Available  138449 
Includes bibliographical references and index
Preface 
Dedication 
Chap 1 From Concept to Conundrum 
Chap 2 Cornucopia of Quantum Logic Gates 
Chap 3 Multiverse Cosmology: A New Basis of Reality 
Chap 4 A Revolution in the Conception of Matter 
Chap 5 From Qubits to relativistic ( RQubits) 
Chap 6 Utility of Unified Field Mechanics 
Chap 7 Surmounting Uncertainty Supervening Decoherence 
Chap 8 Measurement with Certainty 
Chap 9 Topological Quantum Field Theory 
Chap 10 Topological Quantum Computing 
Chap 11 A New Group of Transformations 
Chap 12 OntologicalPhase Topological Field Theory 
Chap 13 New Classes of Quantum Algorithms 
Chap 14 Class II Mesoionic Xanthines as Potential Ten Qubit Substrate Registers 
Chap 15 Universal Quantum Computing Prototype Modeling 
References 
Index
"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, 100s of patents, 1,000s of papersand 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 myriad other avenues to UQC under study? Virtually all R&D paths struggle with technology and decoherence. If highly favored roomsized cryogenically cooled QCs ever become successful, they would be reminiscent of the city blocksized 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!"
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