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Hideo Mabuchi

单位:Stanford University , Department of Applied Physics

研究方向:Quantum Engineering, Quantum Information, Quantum Metrology, Quantum Optics

个人主页: https://minty2.stanford.edu/wp/hmabuchi/


Research areas

AMO Physics, Biophysics, Control and Estimation, Information Sci/Tech, Laser Physics, Nano Sci/Eng, Photonics, Quantum Engineering, Quantum Information, Quantum Metrology, Quantum Optics


Description

Nanoscience and Quantum Engineering

Experimental and theoretical approaches to complex problems at the interface of non-equilibrium quantum statistical mechanics with dynamical systems, estimation and control: real-time quantum feedback control, quantum information science, nanophotonic circuit theory, quantum nonlinear dynamics in single-atom cavity QED; quantum probability; control-theoretic methods in non-equilibrium quantum statistical mechanics.


Biophysics

Experimental and theoretical approaches to complex problems at the interface of non-equilibrium statistical mechanics with dynamical systems, estimation and control: chromatin mechanics and DNA/RNA folding studied by single-molecule fluorescence diffusometry, tracking-FCS and tracking-FRET; applications of modern statistical methods and signal processing techniques in learning from single-molecule data.


Lasers and Accelerators

Applications of lasers in single-atom and single-molecule experiments; nonlinear-optical devices for coherent feedback quantum control; laser and resonator/interferometer stabilization techniques.


Selected Publications

Low-lying bifurcations in cavity quantum electrodynamics

Quantum dot photon statistics measured by three-dimensional particle tracking

Coherent-feedback quantum control with a dynamic compensator

Derivation of Maxwell-Bloch-type equations by projection of quantum models

Quantum filter reduction for measurement-feedback control via unsupervised manifold learning

Van der Waals enhancement of optical atom potentials via resonant coupling to surface polaritons

Cavity-QED models of switches for attojoule-scale nanophotonic logic

Precise characterization of the conformation fluctuations of freely diffusing DNA: beyond Rouse and Zimm

Designing quantum memories with embedded control: photonic circuits for autonomous quantum error correction

The dressed atom as binary phase modulator: towards attojoule/edge optical phase-shift keying

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