1. “On the Einstein relation between mobility and diffusion coefficient in an active bath”, A. Solon, and J. M. Horowitz, J. Phys. A: Math. and Theor., 55, 18, 184002 (2022). [pdf]
  2. “Thermodynamic constraints on the nonequilibrium response of one-dimensional diffusions”, Q. Gao, H.-M. Chun, and J. M. HorowitzPhys. Rev. E, 105, L012102 (2022). [pdf]


  1. “Nonequilibrium Green-Kubo relations for hydrodynamic transport from an equilibrium-like fluctuation-response equality”, H.-M. Chun, Q. Gao and J. M. HorowitzPhys. Rev. R, 3, 043172 (2021). [pdf]


  1. “Universal thermodynamic bounds on nonequilibrium response with biochemical applications”, J. A. Owen, T. R. Gingrich and J. M. HorowitzPhys. Rev. X, 10, 011066 (2020). [pdf]
  2. “Thermodynamic uncertainty relations constrain non-equilibrium fluctuations”, J. M. Horowitz and T. R. Gingrich, Nature Physics, 16, 15-20 (2020). [pdf]


  1. “Inferring broken detailed balance in the absence of observable currents”, I. A. Martinez, G. Bisker, J. M. Horowitz and J. M. R. Parrondo, Nature Communications10, 3542 (2019). [pdf]
  2. “Hysteretic thermodynamic uncertainty relation for systems with broken time-reversal symmetry”, K. Proesmans and J. M. HorowitzJ. Stat. Mech., 054005 (2019). [pdf]
  3. “There thermodynamic uncertainty relation in biochemical oscillations”, R. Marsland III, W. Cui and J. M. HorowitzR. Soc. Interface 16, 20190098 (2019). [pdf]
  4. “Bacterial range expansions on a growing front: Roughness, fixation, and directed percolation”, J. M. Horowitz and M. Kardar, Phys. Rev. E, 99, 042134 (2019). [pdf]
  5. “Quantifying dissipation using fluctuating currents”, J. Li, J. M. Horowitz, T. R. Gingrich and N. Fakhri, Nature Communications, 10, 1666 (2019). [pdf]


  1. “Quantum fluctuation theorems for arbitrary environments: Adiabatic and nonadiabatic entropy production”, G. Manzano, J. M. Horowitz and J. M. R. Parrondo, Phys. Rev. X, 8, 031037 (2018). [pdf]
  2. “Phase transition in protocols minimizing work fluctuations”, A. P. Solon and J. M. HorowitzPhys. Rev. Lett., 120, 180605 (2018). [pdf]


  1. “Fundamental bounds on first passage time fluctuations”, T. R. Gingirch and J. M. HorowitzPhys. Rev. Lett., 119, 170601 (2017). [link]
  2. “Hierarchical bounds on entropy production inferred from partial information”, G. Bisker, M. Poletinni, T. R. Gingrich and J. M. HorowitzJ. Stat. Mech, 093210 (2017)[pdf]
  3. “Proof of the finite-time thermodynamic uncertainty relation for steady-state currents”,  J. M. Horowitz and T. R. Gingrich, Phys. Rev. E, 96, 020103(R) (2017). [pdf]
  4. “Spontaneous fine-tuning to environment in many-species chemical reaction networks”, J. M. Horowitz and J. L. England, PNAS, 114, 7565-7570 (2017). [pdf]
  5. “Information-theoretic bound on the entropy production to maintain a classical nonequilibrium distribution using ancillary control”, J. M. Horowitz and J. L. England, Entropy, 19, 333 (2017). [pdf]
  6. “Stochastic gene expression conditioned on large deviations”, J. M. Horowitz and R. V. Kulkarni, Phys. Biol., 14, 03LT01 (2017). [pdf]
  7. “Inferring dissipation from current fluctuations”, T. R. Gingrich, G. M. Rotskoff and J. M. HorowitzJ. Phys. A, 50, 184004 (2017). [pdf]
  8. “Minimum energetic cost to maintain a target nonequilibrium state”, J. M. Horowitz, K. Zhou and J. L. England, Phys. Rev. E, 95, 042102 (2017). [pdf]


  1. “Continuous information flow fluctuations”, M. L. Rosinberg and J. M. HorowitzEurophys. Lett., 116, 10007 (2016). [pdf]
  2. “Reversible feedback confinement”, L. Granger, L. Dinis, J. M. Horowitz and J. M. R. Parrondo, Europhys. Lett., 115, 50007 (2016). [pdf]
  3. “Work producing reservoirs: Stochastic thermodynamics with generalized Gibbs ensembles”, J. M. Horowitz and M. Esposito, Phys. Rev. E, 94, 020102(R) (2016). [pdf]
  4. “Dissipation bounds all steady-state current fluctuations”, T. R. Gingrich, J. M. Horowitz, N. Perunov and J. L. England, Phys. Rev. Lett., 116, 120601 (2016). [pdf]


  1. “Energy cost of controlling mesoscopic quantum systems”, J. M. Horowitz and K. Jacobs, Phys. Rev. Lett., 115, 130501 (2015). [pdf]
  2. “Nonequilibrium potential and fluctuation theorems for quantum maps”, G. Manzano, J. M. Horowitz and J. M. R. Parrondo, Phys. Rev. E, 92, 032129 (2015). [pdf]
  3. “Diffusion approximations to the chemical master equation only have a consistent stochastic thermodynamics at chemical equilibrium”, J. M. HorowitzJ. Chem. Phys., 143, 044111 (2015). [pdf]
  4. “Multipartite information flow for multiple Maxwell demons”, J. M. HorowitzJ. Stat. Mech.: Theor. Exp., P03006 (2015). [pdf]
  5. “Thermodynamics of information”, J. M. R. Parrondo, J. M. Horowitz and T. Sagawa, Nature Phys., 11, 131-139 (2015). [pdf]


  1. “Thermodynamic costs of information processing in sensory adaptation”, P. Sartori, L. Granger, C. F. Lee and J. M. HorowitzPLoS Comput. Biol., 10, e1003974 (2014). [pdf]
  2. “Second-law-lke inequalities and their interpretations”, J. M. Horowitz and H. Sandberg, New J. Phys., 16, 125007 (2014). [pdf]
  3. “Thermodynamics with continuous information flow”, J. M. Horowitz and M. Esposito, Phys. Rev. X, 4, 031015 (2014). [pdf]
  4. “Equivalent definitions of the quantum nonadiabatic entropy production”, J. M. Horowitz and T. Sagawa, J. Stat. Phys., 156, 55-65 (2014). [pdf]
  5. “Quantum effects improve the energy efficiency of feedback control”, J. M. Horowitz and K. Jacobs, Phys. Rev. E, 89, 042134 (2014). [pdf]


  1. “Entropy production along nonequilibrium quantum jump trajectories”, J. M. Horowitz and J. M. R. Parrondo, New J. Phys.,15, 085028 (2013). [pdf]
  2. “Imitating chemical motors with optimal information motors”, J. M. Horowitz, T. Sagawa and J. M. R. Parrondo, Phys. Rev. Lett., 101, 010602 (2013). [pdf]


  1. “Quantum-trajectory approach to the stochastic thermodynamics of a forced harmonic oscillator”, J. M. Horowitz, Phys. Rev. E, 85, 031110 (2012). [pdf]


  1. “Designing optimal discrete-feedback thermodynamic engines”, J. M. Horowitz and J. M. R. Parrondo, New J. Phys., 13, 123019 (2011). [pdf]
  2. “Thermodynamic reversibility in feedback processes”, J. M. Horowitz and J. M. R. Parrondo, Europhys. Lett., 95, 10005 (2011). [pdf]


  1. “Nonequilibrium detailed fluctuation theorem for repeated discrete feedback”, J. M. Horowitz and S. Vaikuntanathan, Phys. Rev. E, 82, 061120 (2010). [pdf]


  1. “Exact formula for currents in strongly pumped diffusive systems”, J. M. Horowitz and C. Jarzynski, J. Stat. Phys., 136, 917-925 (2009). [pdf]
  2. “Illustrative example of the relationship between dissipation and relative entropy”, J. Horowitz and C. Jarzynski, Phys. Rev. E, 79, 021106 (2009). [pdf]


  1. “Directed flow in nonadiabatic stochastic pumps”, S. Rahav, J. Horowitz and C. Jarzynski, Phys. Rev. Lett., 101, 140602 (2008). [pdf]


  1. “Comment on ‘Failure of the work-hamiltonian connection for free-energy calculations'”, J. Horowitz and C. Jarzynski, Phys. Rev. Lett., 101, 098901 (2007). [pdf]
  2. “Comparison of work fluctuation relations”, J. Horowitz and C. Jarzysnski, J. Stat. Mech.: Theor. Exp., P11002 (2007). [pdf]

Conference proceedings

  1. “Optimizing non-ergodic feedback engines”, J. M. Horowitz and J. M. R. Parrondo, Acta Phys. Pol., 44, 803-814 (2013). [pdf]


  1. “Motores microscópicos”, J. M. Horowitz and J. M. R. Parrondo, Investigación y Ciencia, March (2013).
  2. “Thermodynamics: a Stirling effort”, J. M. Horowitz and J. M. R. Parrondo, Nature Phys., 8, 108-109 (2011).
  3. “Viewpoint: Maxwell’s demon in the quantum world”, J. M. Horowitz and J. M. R. Parrondo, Physics, 4, 13, (2011).