Publications

2018

  • R. Uzdin and S. Rahav, “Global passivity in microscopic thermodynamics”, Phys. Rev. X, 8, 021064 (2018). [Journal, arXiv]
  • T. Admon, S. Rahav, and Y. Roichman, “Experimental Realization of an Information Machine with Tunable Temporal Correlations”, Phys. Rev. Lett., 121, 180601 (2018). [Journal]

2017

  • S. Rahav, “Validity of the no-pumping theoremin systems with finite-range interactions between particles”, Phys. Rev. E, 95, 012159 (2017). [Journal, arXiv]
  • I. Bogod and S. Rahav, “Kinetic discrimination of a polymerase in the presence of obstacles”, Phys. Rev. E., 95, 042408 (2017). [Journal, arXiv]
  • S. Asban and S. Rahav, “Nonequilibrium free-energy estimation conditioned on measurement outcomes”, Phys. Rev. E, 96, 022155 (2017). [Journal, arXiv]
  • A. Pal and S. Rahav, “Integral fluctuation theorems for stochastic resetting systems”, Phys. Rev. E, 96, 062135 (2017). [Journal, arXiv]

2015

  • M. Diamant, S. Rahav, R. Ferrando, and G Alexandrowicz, “Interpretation of surface diffusion data with Langevin simulations: a quantitative assessment”, J. Phys: Cond. Mat., 27, 125008 (2015). [Journal]
  • S. Asban and S. Rahav, “Stochastic pumps of particles with zero-range interactions”, New J. Phys., 17, 055015 (2015). [Journal]
  • C. Jarzynski, H. T. Quan, and S. Rahav, “Quantum-Classical Correspondence Principle for Work Distributions”, Phys. Rev. X, 5, 031038 (2015). [Journal, arXiv]

2014

  • S. Asban and S. Rahav, “No-pumping theorem for many particle stochastic pumps”, Phys. Rev. Lett., 112, 050601 (2014). [Journal, arXiv]
  • S. Rahav and U. Harbola, “An integral fluctuation theorem for systems with unidirectional transitions”, J. Stat. Mech., 2014, P10044. [Journal, arXiv]

2013

  • S. Rahav and C. Jarzynski, “Nonequilibrium fluctuation theorems from equilibrium fluctuations”, New J. Phys., 15, 125029 (2013). [Journal]
  • D. Hurowitz, S. Rahav, and D. Cohen, “Nonequilibrium steady state and induced currents of a mesoscopically glassy system: Interplay of resistor-network theory and Sinai physics”, Phys. Rev. E, 88, 062141 (2013) [Journal, arXiv]

2012

  • S. Rahav, U. Harbola, and S. Mukamel, “Heat fluctuations and coherences in a quantum heat engine”,  Phys. Rev. A., 86, 043843 (2012) [Journal]
  • R. Uzdin, U. Gunther, S. Rahav, and N. Moiseyev, “Time-dependent Hamiltonians with 100% evolution speed efficiency “,  J. Phys. A: Math. Theor.,  45, 415304 (2012). [Journal, arXiv]
  • U. Harbola, S. Rahav, and S. Mukamel, “Quantum heat engines: A thermodynamic analysis of power and efficiency”,  EPL99, 50005 (2012). [Journal]
  • D. Hurowitz, S. Rahav, and D. Cohen, “The non-equilibrium steady state of sparse systems with non-trivial topology”,  EPL, 98, 20002 (2012). [Journal, arXiv]

2011

  • S. Rahav, “Extracting work from stochastic pumps”,  J. Stat. Mech., 2011 P09020. [Journal]

2010

  • S. Rahav and S. Mukamel, “Multidimensional optical spectroscopy of a single molecule in a current-carrying state”, J. Chem. Phys., 133, 244106 (2010). [Journal]
  • S. Mukamel and S. Rahav, “Ultrafast Nonlinear Optical Signals Viewed from the Molecule’s Perspective: Kramers-Heisenberg Transition-Amplitudes versus Susceptibilities”, In: E. Arimondo, P. R. Berman and C. C. Lin editors, Advances in Atomic, Molecular, and Optical Physics (Volume 59), pp. 223-263,(Academic Press, 2010). [Link]
  • S. Rahav and S. Mukamel, “Multidimensional attosecond photoelectron spectroscopy with shaped pulses and quantum optical fields”,  Phys. Rev. A, 81, 063810 (2010). [Journal]
  • S. Rahav and S. Mukamel, “Multidimensional measures of impulsively driven stochastic systems based on the Kullback-Leibler distance”,  Phys. Rev. E81, 031116 (2010). [Journal, arXiv]
  • S. Rahav and S. Mukamel, “Stimulated coherent anti-Stokes Raman spectroscopy (CARS) resonances originate from double-slit interference of two-photon Stokes pathways”, Proc. Natl. Acad. Sci. USA, {\bf 107}, 4825 (2010). [Journal]

2009

  • S. Rahav, O. Roslyak, and S. Mukamel, “Manipulating stimulated CARS signals by broad-band and narrow-band pulses”,  J. Chem. Phys., 131, 194510 (2009). [Journal]
  • S Rahav and S. Mukamel, “Gaussian phase-space representation of Fermion dynamics: Beyond the time-depdendent Hartree-Fock approximation”,  Phys. Rev. B79, 165103 (2009). [Journal, arXiv]

2008

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

2007

  • S. Rahav and C. Jarzynski, “Fluctuation relations and coarse-graining”, J. Stat. Mech., 2007, P09012. [Journal, arXiv]
  • P. W. Brouwer and S. Rahav, “Universal parametric correlations in the classical limit of quantum transport”, Phys. Rev. B, 75, 201303(R) (2007). [Journal, arXiv]

2006

  • S. Rahav and P. W. Brouwer, “Semiclassical theory of a quantum pump”, Phys. Rev. B, 74, 205327 (2006). [Journal, arXiv]
  • P. W. Brouwer, S. Rahav and C. Tian, “The spectral form factor near the Ehrenfest-time”, Phys. Rev. E, 74, 066208 (2006). [Journal, arXiv]
  • P. W. Brouwer and S. Rahav, “Towards a semiclassical justification of the effective random matrix theory for transport through ballistic chaotic quantum dots”, Phys. Rev. B, 74, 085313 (2006). [Journal, arXiv]
  • S. Rahav and P. W. Brouwer, “Ehrenfest time and the coherent backscattering off ballistic cavities”, Phys. Rev. Lett., 96, 196804 (2006). [Journal, arXiv]
  • S. Adam, M. Kindermann, S. Rahav and P. W. Brouwer, “Mesoscopic anisotropic magnetoconductance fluctuations in ferromagnets”, Phys. Rev. B73, 212408 (2006). [Journal, arXiv]
  • P. W. Brouwer and S. Rahav, “Semiclassical theory of the Ehrenfest time dependence of quantum transport in ballistic quantum dots”, Phys. Rev. B, 74, 075322 (2006). [Journal, arXiv]
  • S. Rahav and P. W. Brouwer, “Classical limit of transport in quantum kicked maps”, Phys. Rev. B, 73, 035324 (2006). [Journal, arXiv]

2005

  • S. Rahav and P. W. Brouwer,“Ehrenfest-Time Dependence of Weak Localization in Open Quantum Dots”,  Phys. Rev. Lett., 95, 056806 (2005). [Journal, arXiv]
  • S. Rahav, E. Geva and S. Fishman, “Time-independent approximations for periodically driven systems with friction”,  Phys. Rev. E, 71, 036210 (2005). [Journal, arXiv]

2003

  • S. Rahav, O. Richman and S. Fishman, “Point perturbation of circle billliards”, J. Phys. A: Math. Gen., 36, L529 (2003). [Journal, arXiv]
  • S. Rahav, I. Gilary and S. Fishman,“Time independent description of rapidly oscillating potentials”,  Phys. Rev. Lett. , 91, 110404 (2003). [Journal, arXiv]
  • S. Rahav, I. Gilary and S. Fishman, “Effective Hamiltonians for periodically driven systems”, Phys. Rev. A, 68, 013820 (2003). [Journal, arXiv]
  • I. Gilary, N. Moiseyev, S. Rahav and S. Fishman, “ Trapping of particles by lasers: the quantum Kapitza pendulum”, J. Phys. A: Math. Gen., 36, L409 (2003). [Journal]
  • S. Fishman and S. Rahav, “Relaxation and noise in chaotic systems”. In Proceedings of the 38th Karpacz winter school on “Dynamical semigroups: Dissipation, Chaos,Quanta”, editors P. Garbaczewski and R. Olkiewicz, Springer Verlag, Berlin 2003, pp 165-192. [arXiv]

2002

  • S. Rahav and S. Fishman, “Spectral statistics of rectangular billiards with localized perturbations”, Nonlinearity, 15,  1541 (2002). [Journal, arXiv]
  • S. Rahav and S. Fishman, “Localized perturbations of integrable quantum billiards”, Phys. Rev. E, 65,  067204 (2002). [Journal, arXiv]

2001

  • S. Rahav and S. Fishman, “Spectral Statistics of the Rectangular Billiard with a Flux Line”, Foundations of Physics, 31, 115 (2001). [Journal]

1999

  • S. Rahav, O. Agam and S. Fishman, “The accuracy of semiclassical quantization for and integrable system-the hyperspherical billiard”, J. Phys. A: Math. Gen., 32, 7093 (1999). [Journal, arXiv]
  • D. Sherman and S. Rahav, “A note on evaluating the fracture energy of thin ceramic
    layers by cleavage”, Int. J. Frac., 99, 189 (1999). [Journal]