Hirayama Y. Quantum Hybrid Electronics and Materials 2022

Textbook in PDF format

This book highlights recent advances in quantum control technologies with regard to hybrid quantum systems. It addresses the following topics: phonon engineering based on phononic crystals, carbon-based nano materials like graphene and nanotubes, Terahertz light technology for single-molecule and quantum dots, nuclear-spin-based metrology for semiconductor quantum systems, quantum anomalous Hall effect in magnetic topological insulators, chiral three-dimensional photonic crystals, and bio-inspired magnonic systems. Each topic, as a component in the framework of hybrid quantum systems, is concisely presented by experts at the forefront of the field. Accordingly, the book offers a valuable asset, and will help readers find advanced technologies and materials suitable for their purposes.
Diversity of Hybrid Quantum Systems
Phonon Engineering for Quantum Hybrid Systems
Phonon Engineering of Graphene by Structural Modifications
On-Chip Wave Manipulations Enabled by Electromechanical Phononic-Crystal Waveguides
Electron and Phonon Transport Simulation for Quantum Hybrid System
Suspended Carbon Nanotubes for Quantum Hybrid Electronics
Quantum Effects in Carbon Nanotubes: Effects of Curvature, Finite-Length and Topological Property
Synthesis and Transport Analysis of Turbostratic Multilayer Graphene
Quantum Anomalous Hall Effect in Magnetic Topological Insulator
Transport Properties and Terahertz Dynamics of Single Molecules
Novel Phonon Generator and Photon Detector by Single Electron Transport in Quantum Dots
Hyperfine-Mediated Transport in a One-Dimensional Channel
Microscopic Properties of Quantum Hall Effects
Semiconductor Chiral Photonic Crystal for Controlling Circularly Polarized Vacuum Field
Hybrid Structure of Semiconductor Quantum Well Superlattice and Quantum Dot