Biography: Massimiliano Esposito is a physicist working in the field of stochastic thermodynamics. See his website for more information.

Field(s) of Research: Chemical Reaction Networks, 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

• Massimiliano Esposito's website.

Reference Materials

1. Entropy production as correlation between system and reservoir
2. Finite-time erasing of information stored in fermionic bits
3. Finite-time thermodynamics for a single-level quantum dot
4. Fluctuation theorems for quantum master equations
5. Glucans monomer-exchange dynamics as an open chemical network
6. Reaching optimal efficiencies using nanosized photoelectric devices
7. Second law and Landauer principle far from equilibrium
8. Stochastic thermodynamics for Maxwell demon feedbacks
9. Stochastic thermodynamics under coarse graining
10. Stochastically driven single-level quantum dot: A nanoscale finite-time thermodynamic machine and its various operational modes
11. Thermodynamics of a physical model implementing a Maxwell demon
12. Thermodynamics with continuous information flow
13. Thermoelectric efficiency at maximum power in a quantum dot
14. Three faces of the second law. I. Master equation formulation
15. Three faces of the second law. I. Master equation formulation2