伊與田 英輝

Iyoda Eiki

  • 准教授
  • 学位:博士(理学)

基本情報

所属

  • Undergraduate School of Science / Department of Physics
  • Graduate School of Science / Course of Physics

ジャンル

  • Physics

研究と関連するSDGs

  • Industry, Innovation and Infrastructure

詳細情報

論文

Coherent electron splitting in interacting chiral edge channels

Mach-Zehnder interference of fractionalized electron-spin excitations

Eigenstate fluctuation theorem in the short- and long-time regimes

Quantum Violation of the Fluctuation–Dissipation Theorem in Macroscopic Two-dimensional Electronic Systems

Characterizing complexity of many-body quantum dynamics by higher-order eigenstate thermalization

Heating and cooling of quantum gas by eigenstate Joule expansion

Universal scrambling in gapless quantum spin chains

Work extraction from a single energy eigenstate

Effective dimension, level statistics, and integrability of Sachdev-Ye-Kitaev-like models

Numerical Large Deviation Analysis of the Eigenstate Thermalization Hypothesis

Scrambling of quantum information in quantum many-body systems

From Quantum Mechanics to the Second Law of Thermodynamics

Reply to Comment on: "Fluctuation Theorem for Many-Body Pure Quantum States"

Saturation of entropy production in quantum many-body systems

Fluctuation Theorem for Many-Body Pure Quantum States

Dephasing in single-electron generation due to environmental noise probed by Hong-Ou-Mandel interferometry (vol 89, 205318, 2014)

Dephasing in single-electron generation due to environmental noise probed by Hong-Ou-Mandel interferometry

Transient carrier dynamics in a Mott insulator with antiferromagnetic order

Properties of a Single Photon Generated by a Solid-State Emitter: Effects of Pure Dephasing

Analysis of Shot Noise at Finite Temperatures in Fractional Quantum Hall Edge States

講演・口頭発表等

  • Flying Qubit on the Integer Quantum Hall Edge States

共同研究・競争的資金等の研究課題

Mathematical study of quantum many-body dynamics

The second law of thermodynamics in isolated quantum many-body systems

Theory for non-equilibrium control in quantum many-body and artificial systems

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