Difference between revisions of "Massimiliano Esposito"
From Thermodynamics of Computation
(Created page with "{{Researcher |Thematic area=Thermodynamics of Computation |Biography=Massimiliano Esposito is a physicist working in the field of stochastic thermodynamics. See his website f...") |
|||
(One intermediate revision by one other user not shown) | |||
Line 1: | Line 1: | ||
{{Researcher | {{Researcher | ||
− | |||
|Biography=Massimiliano Esposito is a physicist working in the field of stochastic thermodynamics. See his website for more information. | |Biography=Massimiliano Esposito is a physicist working in the field of stochastic thermodynamics. See his website for more information. | ||
− | |Fields of Research=Chemical Reaction Networks; General Non-equilibrium Statistical Physics; | + | |Fields of Research=Chemical Reaction Networks; General Non-equilibrium Statistical Physics; Stochastic Thermodynamics; Naturally Occurring Biological Computation; Quantum Thermodynamics and Information Processing |
+ | |Aliases=M. Esposito | ||
|Related links={{Related link | |Related links={{Related link | ||
|Related link title=Massimiliano Esposito's website. | |Related link title=Massimiliano Esposito's website. | ||
|Related link URL=https://sites.google.com/site/massimilianoespositogennaro/home | |Related link URL=https://sites.google.com/site/massimilianoespositogennaro/home | ||
}} | }} | ||
+ | |Thematic area=Thermodynamics of Computation | ||
}} | }} |
Latest revision as of 19:45, April 24, 2018
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, Stochastic Thermodynamics, Naturally Occurring Biological Computation, Quantum Thermodynamics and Information Processing
Related links
Reference Materials
- Entropy production as correlation between system and reservoir
- Finite-time erasing of information stored in fermionic bits
- Finite-time thermodynamics for a single-level quantum dot
- Fluctuation theorems for quantum master equations
- Glucans monomer-exchange dynamics as an open chemical network
- Reaching optimal efficiencies using nanosized photoelectric devices
- Second law and Landauer principle far from equilibrium
- Stochastic thermodynamics for Maxwell demon feedbacks
- Stochastic thermodynamics under coarse graining
- Stochastically driven single-level quantum dot: A nanoscale finite-time thermodynamic machine and its various operational modes
- Thermodynamics of a physical model implementing a Maxwell demon
- Thermodynamics with continuous information flow
- Thermoelectric efficiency at maximum power in a quantum dot
- Three faces of the second law. I. Master equation formulation
- Three faces of the second law. I. Master equation formulation2