En la sección Cronograma se encuentra el programa detallado con la bibliografía sugerida para cada clase.
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- R. Mazo, Brownian Motion, Clarendon (2002).
- H. Touchette, The large deviation approach to statistical mechanics, Phys. Rep. 478, 1 (2009).
- P. T. Landsberg, Thermodynamics and statistical mechanics, Dover (1990).
- H. B. Callen, Thermodynamics, Wiley (1985).
- L. Boltzmann, Lectures on gas theory, Dover (1964).
- Landau, Lifshitz, Statistical Mechanics (volumen 5 del Curso de Física Teórica).
- S. R. De Groot, P. Mazur, Non-equilibrium thermodynamics, Dover (1962).
- E. Calzetta, B-L. Hu, Nonequilibrium Quantum Field Theory, Cambridge (2008).
- H. Kramers, Brownian Motion in a field of force and the diffusion model of chemical reactions, Physica VII, 284 (1940) (E).
- P. Hänggi, P. Talkner, M. Borkovec, Reaction-rate theory: fifty years after Kramers, Rev. Mod. Phys. 62, 251 (1990).
- A. Kamenev, Field theory of non-equilibrium systems, Cambridge (2011).
- A. Peres, Quantum Theory: Concepts and Methods, Kluwer Academic Publishers (2002).
- L. Landau, The Damping Problem In Wave Mechanics, Z. Phys. 45, 430 (1927) [reprinted in D. Ter Haar, Collected Papers of L. D. Landau, Pergamon (1965).
- H. Araki y E. H. Lieb, Entropy Inequalities, Commun. Math. Phys. 18, 160 (1970).
- A. E. Allahverdyan, R. Balian, Th. M. Nieuwenhuizen, Thomson´s formulation of the second law: an exact theorem and limits of its validity, ArXiv: 0208563.
- M. Campisi, P. Hänggi, P. Talkner, Colloquium. Quantum Fluctuation Relations: Foundations and Applications, Rev. Mod. Phys. 83, 771 (2011); Erratum: ib. 1653 [ArXiv:1012.2268].
- R. Feynman, A. Hibbs, Quantum mechanics and path integrals, McGraw-Hill (1965).
- Y. Subasi, B. L. Hu, Quantum and classical fluctuation theorems from a decoherent histories, open-system analysis, Phys. Rev. E 85, 011112 (2012) [ArXiv:1109.6696v2].
- P. Reimann, Brownian motors: noisy transport far from equilibrium, Phys. Rep. 361, 57 (2002).
- O. Abah et al., Single ion heat engine with maximum efficiency at maximum power, Phys. Rev. Lett. 109, 203006 (2012).
- M. Ueda et al., Information heat engine: converting information to energy by feedback control, ArXiv:1009.5287.