Quantum Hybrid Electronics and Materials

Diversity of hybrid quantum systems.- Phonon Engineering for Quantum Hybrid Systems.-Phonon Engineering of Graphene by Structural Modification.- On-Chip Wave Manipulation Enabled by an Electromechanical Phononic Crystal Waveguide.- Electron and Phonon Transport Simulation for Quantum Hybrid Electronics.- Strain Science and Engineering in Graphene.- Carbon Nanotubes for Hybrid Quantum System: Material and Properties.-Suspended Carbon Nanotubes for Quantum Hybrid Electronics.- Quantum Effects in Carbon Nanotubes: Effects of Curvature, Finite-Length and Topological Properties.- Synthesis of Nanocarbon Materials from Solid Templates for Quantum Hybrid Electronics.-Quantum Anomalous Hall Effect in Magnetic Topological Insulator.-Terahertz Electronic and Vibronic Dynamics at the Single Molecule Level.- Novel Phonon Generator and Photon Detector by Single Electron Transport in Quantum Dots.- Hyperfine-Mediated Quantum Transport in a One Dimensional Channel.- Microscopic Observation of QuantumHall Systems Involving Edge, Bulk Localized, and Hyperfine-Coupled States.-Semiconductor Chiral Photonic Crystal for Controlling Circularly Polarized Vacuum Field.- Hybrid Structure of Semiconductor Quantum Well Superlattice and Quantum Dot.- Magnonics Coupled with Spin Fluctuation Inspired by the Bio Systems.

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• Nanotecnologia
• Física da Matéria Condensada (física do estado sólido e estado líquido)
• Ciência dos materiais
• Dispositivos e materiais electrónicos
• Semicondutores e supercondutores

Materials Science Topics in Quantum Hybrid Systems;Phononic Crystals;Strain Engineering in Graphene;Suspended Carbon Nanotubes;Chiral 3D Photonic Crystals;Quantum Hall Systems and Topological Insulators;THz Spectroscopy with Single Molecule Transistor Geometry