Yang-Baxterizations, Universal Quantum Gates and Hamiltonians
Quantum Information Processing
Probabilities of Failure for Quantum Error Correction
Quantum Information Processing
Aperiodic propagation criteria for Boolean functions
Information and Computation
SIGGRAPH '05 ACM SIGGRAPH 2005 Courses
Synthesis of multi-qudit hybrid and d-valued quantum logic circuits by decomposition
Theoretical Computer Science
A Characterization of Global Entanglement
Quantum Information Processing
GHZ States, Almost-Complex Structure and Yang---Baxter Equation
Quantum Information Processing
Quantum LDPC codes with positive rate and minimum distance proportional to n 1/2
ISIT'09 Proceedings of the 2009 IEEE international conference on Symposium on Information Theory - Volume 2
The sudden death of entanglement in constructed Yang---Baxter systems
Quantum Information Processing
The diagonalization method in quantum recursion theory
Quantum Information Processing
Other complexity classes and measures
Algorithms and theory of computation handbook
Temperley---Lieb algebra, Yang-Baxterization and universal gate
Quantum Information Processing
Extraspecial two-groups, generalized yang-baxter equations and braiding quantum gates
Quantum Information & Computation
A geometric approach to quantum circuit lower bounds
Quantum Information & Computation
Tripartite entanglement sudden death in Yang-Baxter systems
Quantum Information Processing
ICALP'05 Proceedings of the 32nd international conference on Automata, Languages and Programming
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From the Publisher:Among the most exciting developments in science today is the design and construction of the quantum computer. Its realization will be the result of multidisciplinary efforts, but ultimately, it is mathematics that lies at the heart of theoretical quantum computer science.Mathematics of Quantum Computation brings together leading computer scientists, mathematicians, and physicists to provide the first interdisciplinary but mathematically focused exploration of the field's foundations and state of the art. Each section of the book addresses an area of major research, and does so with introductory material that brings newcomers quickly up to speed. Chapters that are more advanced include recent developments not yet published in the open literature.Information technology will inevitably enter into the realm of quantum mechanics, and, more than all the atomic, molecular, optical, and nanotechnology advances, it is the device-independent mathematics that is the foundation of quantum computer and information science. Mathematics of Quantum Computation offers the first up-to-date coverage that has the technical depth and breadth needed by those interested in the challenges being confronted at the frontiers of research.