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Tensor Network Techniques for Quantum Computation
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This book serves as an introductory yet thorough guide to tensor networks and their applications in quantum computation and quantum information, designed for advanced undergraduate and graduate-level readers. In Part I, foundational topics are covered, including tensor structures and network representations like Matrix Product States (MPS) and Tree Tensor Networks (TTN). These preliminaries provide readers with the core mathematical tools and concepts necessary for quantum physics and quantum computing applications, bridging the gap between multi-linear algebra and complex quantum systems. Part II explores practical applications of tensor networks in simulating quantum dynamics, with a particular focus on the efficiency they offer for systems of high computational complexity. Key topics include Hamiltonian dynamics, quantum annealing, open system dynamics, and optimization strategies using TN frameworks. A final chapter addresses the emerging role of “quantum magic” in tensor networks. It delves into non-stabilizer states and their contribution to quantum computational power beyond classical simulability, featuring methods such as stabilizer-enhanced MPS and the Clifford-dressed TDVP. In presenting tensor networks as tools for understanding quantum complexity, this book aims to foster a deeper collaboration between the many-body physics and quantum computing communities, inviting a broader audience to engage with these recent developments.
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Keywords
- Clifford Group and Clifford-Dressed TDVP
- entanglement
- Hamiltonian Dynamics
- Matrix Product Operators (MPO)
- Matrix Product States (MPS)
- Nonstabilizerness and Quantum Resource Theory
- open quantum systems
- quantum annealing
- quantum circuits
- quantum computing
- Stabilizer Formalism
- Tensor Networks
- thema EDItEUR::P Mathematics and Science::PH Physics::PHQ Quantum physics (quantum mechanics and quantum field theory)
- Time-Dependent Variational Principle (TDVP)
Links
DOI: 10.22323/9788898587049Editions