Biography: Nonequilibrium statistical physics (theory) and related fields. Keywords: Thermodynamics of information, fluctuation theorems, quantum thermodynamics. Quantum information theory (quantum estimation etc), quantum open systems, quantum feedback control. Theoretical biophysics (molecular motors etc).

Field(s) of Research: General Non-equilibrium Statistical Physics, Quantum Thermodynamics"Quantum Thermodynamics" is not in the list (Chemical Reaction Networks, Computer Science Engineering to Address Energy Costs, Computer Science Theory, General Non-equilibrium Statistical Physics, Stochastic Thermodynamics, Thermodynamics of Neurobiology, Thermodynamics of Single Cells, Artificial Biological Computation, Logically Reversible Computing, Naturally Occurring Biological Computation, ...) of allowed values for the "Field of Research" property., Stochastic Thermodynamics, Thermodynamics and Computation in Biological Systems"Thermodynamics and Computation in Biological Systems" is not in the list (Chemical Reaction Networks, Computer Science Engineering to Address Energy Costs, Computer Science Theory, General Non-equilibrium Statistical Physics, Stochastic Thermodynamics, Thermodynamics of Neurobiology, Thermodynamics of Single Cells, Artificial Biological Computation, Logically Reversible Computing, Naturally Occurring Biological Computation, ...) of allowed values for the "Field of Research" property.

Related links

• Takahiro Sagawa's website.

Reference Materials

1. Experimental demonstration of information-to-energy conversion and validation of the generalized Jarzynski equality
2. Fluctuation theorem for partially masked nonequilibrium dynamics
3. Fluctuation theorem with information exchange: Role of correlations in stochastic thermodynamics
4. Generalized Jarzynski equality under nonequilibrium feedback control
5. Geometrical expression of excess entropy production
6. Hamiltonian derivations of the generalized Jarzynski equalities under feedback control
7. Heat engine driven by purely quantum information
8. Imitating chemical motors with optimal information motors
9. Information Thermodynamics: Maxwell's Demon in Nonequilibrium Dynamics
10. Information thermodynamics on causal networks
11. Maxwell's demon in biochemical signal transduction with feedback loop
12. Minimal energy cost for thermodynamic information processing: Measurement and information erasure
13. Quantum szilard engine
14. Role of mutual information in entropy production under information exchanges
15. Second law of thermodynamics with discrete quantum feedback control
16. Stochastic energetics for non-Gaussian processes
17. Thermodynamic and logical reversibilities revisited
18. Thermodynamics of information