Yoshiro Hirayama,
Kazuhiko Hirakawa,
Hiroshi Yamaguchi
Quantum Hybrid Electronics and Materials
Paperback Engels 2023 9789811912030
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
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.
Specificaties
ISBN13:9789811912030
Taal:Engels
Bindwijze:paperback
Uitgever:Springer Nature Singapore
Lezersrecensies
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Inhoudsopgave
<p>Chapter 1: Diversity of hybrid quantum systems<br> Authored by Yoshiro Hirayama (Tohoku University)</p>
<p> Chapter 2: Phonon engineering for quantum hybrid systems <br> Authored by Masahiro Nomura and Roman Anufriev (The University of Tokyo) </p>
<p> Chapter 3: Phonon engineering of graphene by structural modification <br> Authord by Takayuki Arie (Osaka Prefecture University) </p>
<p> Chapter 4: On-chip wave manipulation enabled by an electromechanical phononic crystal waveguide <br> Authored by Daiki Hatanaka, Megumi Kurosu, and Hiroshi Yamaguchi (NTT Basic Research Labs.) </p>
<p> Chapter 5: Electron and Phonon Transport Simulation for Quantum Hybrid Electronics <br> Authored by Nobuya Mori (Osaka University)</p>
<p> Chapter 6: Strain science and engineering in graphene <br> Authored by Akinobu Kanda and Hikari Tomori (Tsukuba University) </p>
<p> Chapter 7: Carbon nanotubes for hybrid quantum system: Material and properties <br> Authored by Yutaka Ohno (Nagoya University) </p>
<p> Chapter 8: Suspended carbon nanotubes for quantum hybrid electronics <br> Authored by Yoshikazu Homma, Takumi Inaba and Shohei Chiashi (Tokyo University of Science) </p>
<p> Chapter 9: Quantum effects in carbon nanotubes: Effects of curvature, finite-length and topological properties <br> Authored by Wataru Izumida (Tohoku University) </p>
<p> Chapter 10: Synthesis of nanocarbon materials from solid templates for quantum hybrid electronics <br> Authored by Ryota Negishi and Yoshihiro Kobayashi (Osaka University) </p>
<p> Chapter 11: Quantum anomalous Hall effect in magnetic topological insulator <br> Authored by Minoru Kawamura (RIKEN)</p>
<p> Chapter 12: Terahertz electronic and vibronic dynamics at the single molecule level <br> Authored by Kazuhiko Hirakawa (The University of Tokyo) </p>
<p> Chapter 13: Novel phonon generator and photon detector by single electron transport in quantum dots <br> Authored by Mikio Eto (Keio University)</p>
<p> Chapter 14: Hyperfine-mediated quantum transport in a one dimensional channel <br> Authored by Mohammad H. Fauzi and Yoshiro Hirayama (Tohoku University) </p>
<p> Chapter 15: Microscopic observation of quantum Hall systems involving edge, bulk localized, and hyperfine-coupled states <br> Authored by Katsushi Hashimoto, Toru Tomimatsu, and Yoshiro Hirayama (Tohoku University) </p>
<p> Chapter 16: Semiconductor chiral photonic crystal for controlling circularly polarized vacuum field <br> Authored by Satoshi Iwamoto, Shun Takahashi, Yasuhiko Arakawa (The University of Tokyo) </p>
<p> Chapter 17: Hybrid structure of semiconductor quantum well superlattice and quantum dot <br> Authored by Kouichi Akahane (NICT)</p>
<p> Chapter 18: Magnonics coupled with spin fluctuation inspired by the bio systems <br> Authored by Hitoshi TABATA (The University of Tokyo) </p>
<p> Chapter 2: Phonon engineering for quantum hybrid systems <br> Authored by Masahiro Nomura and Roman Anufriev (The University of Tokyo) </p>
<p> Chapter 3: Phonon engineering of graphene by structural modification <br> Authord by Takayuki Arie (Osaka Prefecture University) </p>
<p> Chapter 4: On-chip wave manipulation enabled by an electromechanical phononic crystal waveguide <br> Authored by Daiki Hatanaka, Megumi Kurosu, and Hiroshi Yamaguchi (NTT Basic Research Labs.) </p>
<p> Chapter 5: Electron and Phonon Transport Simulation for Quantum Hybrid Electronics <br> Authored by Nobuya Mori (Osaka University)</p>
<p> Chapter 6: Strain science and engineering in graphene <br> Authored by Akinobu Kanda and Hikari Tomori (Tsukuba University) </p>
<p> Chapter 7: Carbon nanotubes for hybrid quantum system: Material and properties <br> Authored by Yutaka Ohno (Nagoya University) </p>
<p> Chapter 8: Suspended carbon nanotubes for quantum hybrid electronics <br> Authored by Yoshikazu Homma, Takumi Inaba and Shohei Chiashi (Tokyo University of Science) </p>
<p> Chapter 9: Quantum effects in carbon nanotubes: Effects of curvature, finite-length and topological properties <br> Authored by Wataru Izumida (Tohoku University) </p>
<p> Chapter 10: Synthesis of nanocarbon materials from solid templates for quantum hybrid electronics <br> Authored by Ryota Negishi and Yoshihiro Kobayashi (Osaka University) </p>
<p> Chapter 11: Quantum anomalous Hall effect in magnetic topological insulator <br> Authored by Minoru Kawamura (RIKEN)</p>
<p> Chapter 12: Terahertz electronic and vibronic dynamics at the single molecule level <br> Authored by Kazuhiko Hirakawa (The University of Tokyo) </p>
<p> Chapter 13: Novel phonon generator and photon detector by single electron transport in quantum dots <br> Authored by Mikio Eto (Keio University)</p>
<p> Chapter 14: Hyperfine-mediated quantum transport in a one dimensional channel <br> Authored by Mohammad H. Fauzi and Yoshiro Hirayama (Tohoku University) </p>
<p> Chapter 15: Microscopic observation of quantum Hall systems involving edge, bulk localized, and hyperfine-coupled states <br> Authored by Katsushi Hashimoto, Toru Tomimatsu, and Yoshiro Hirayama (Tohoku University) </p>
<p> Chapter 16: Semiconductor chiral photonic crystal for controlling circularly polarized vacuum field <br> Authored by Satoshi Iwamoto, Shun Takahashi, Yasuhiko Arakawa (The University of Tokyo) </p>
<p> Chapter 17: Hybrid structure of semiconductor quantum well superlattice and quantum dot <br> Authored by Kouichi Akahane (NICT)</p>
<p> Chapter 18: Magnonics coupled with spin fluctuation inspired by the bio systems <br> Authored by Hitoshi TABATA (The University of Tokyo) </p>
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