Publications (53)
Comparison of far-from-equilibrium work relations
Christopher Jarzynski
Classical and Quantum Fluctuation Theorems for Heat Exchange
Christopher Jarzynski, Daniel K. Wojcik
Comment on: Failure of the Work-Hamiltonian Connection for Free-Energy Calculations [Phys Rev Lett 100, 020601 (2008), arXiv:0704.0761]
Jordan Horowitz, Christopher Jarzynski
Verification of the Quantum Nonequilibrium Work Relation in the Presence of Decoherence
Andrew Smith, Yao Lu, Shuoming An +6
Microcanonical work and fluctuation relations for an open system: An exactly solvable model
Yigit Subasi, Christopher Jarzynski
Maxwell's Refrigerator: An Exactly Solvable Model
Dibyendu Mandal, H. T. Quan, Christopher Jarzynski
Thermalization of a Brownian particle via coupling to low-dimensional chaos
Christopher Jarzynski
Conditional reversibility in nonequilibrium stochastic systems
Marcus V. S. Bonança, Christopher Jarzynski
The Second Laws for an Information driven Current through a Spin Valve
Philipp Strasberg, Gernot Schaller, Tobias Brandes +1
Hybrid models of molecular machines and the no-pumping theorem
Dibyendu Mandal, Christopher Jarzynski
Experimental realization of Feynman's ratchet
Jaehoon Bang, Rui Pan, Thai M. Hoang +4
Geometric phases and anholonomy for a class of chaotic classical systems
Christopher Jarzynski
Quantum Chaotic Environments, The Butterfly Effect, And Decoherence
Zbyszek P. Karkuszewski, Christopher Jarzynski, Wojciech H. Zurek
Escorted free energy simulations
Suriyanarayanan Vaikuntanathan, Christopher Jarzynski
Dissipation and lag in irreversible processes
Suriyanarayanan Vaikuntanathan, Christopher Jarzynski
Unbiased estimators for spatial distribution functions of classical fluids
Artur B. Adib, Christopher Jarzynski
Exact formula for currents in strongly pumped diffusive systems
Jordan M. Horowitz, Christopher Jarzynski
Optimal probabilistic work extraction beyond the free energy difference with a single-electron device
Olivier Maillet, Paolo A. Erdman, Vasco Cavina +8
Comparison of work fluctuation relations
Jordan Horowitz, Christopher Jarzynski
Low-Dimensional Manifold of Actin Polymerization Dynamics
Carlos S. Floyd, Christopher Jarzynski, Garegin A. Papoian
Simulating highly nonlocal Hamiltonians with less nonlocal Hamiltonians
Yigit Subasi, Christopher Jarzynski
Fluctuation relations and strong inequalities for thermally isolated systems
Christopher Jarzynski
Information processing and the second law of thermodynamics: an inclusive, Hamiltonian approach
Sebastian Deffner, Christopher Jarzynski
Generating shortcuts to adiabaticity in quantum and classical dynamics
Christopher Jarzynski
Shortcuts to adiabaticity using flow fields
Ayoti Patra, Christopher Jarzynski
Using Sequence Alignments to Predict Protein Structure and Stability With High Accuracy
Alan Lapedes, Bertrand Giraud, Christopher Jarzynski
A Discrete Approximation to Gibbs Free Energy of Chemical Reactions is Needed for Accurately Calculating Entropy Production in Mesoscopic Simulations
Carlos Floyd, Garegin A. Papoian, Christopher Jarzynski
Rare events and the convergence of exponentially averaged work values
Christopher Jarzynski
Mimicking Nonequilibrium Steady States with Stochastic Pumps
Oren Raz, Yigit Subasi, Christopher Jarzynski
Fluctuation relations and coarse-graining
Saar Rahav, Christopher Jarzynski
Validity of nonequilibrium work relations for the rapidly expanding quantum piston
H. T. Quan, Christopher Jarzynski
Classical and quantum shortcuts to adiabaticity in a tilted piston
Ayoti Patra, Christopher Jarzynski
Quantifying Dissipation in Actomyosin Networks
Carlos Floyd, Garegin A. Papoian, Christopher Jarzynski
The quantum-classical correspondence principle for work distributions
Christopher Jarzynski, H. T. Quan, Saar Rahav
A proof by graphical construction of the no-pumping theorem of stochastic pumps
Dibyendu Mandal, Christopher Jarzynski
Directed flow in non-adiabatic stochastic pumps
Saar Rahav, Jordan Horowitz, Christopher Jarzynski
Number of trials required to estimate a free-energy difference, using fluctuation relations
Nicole Yunger Halpern, Christopher Jarzynski
Fast forward to the classical adiabatic invariant
Christopher Jarzynski, Sebastian Deffner, Ayoti Patra +1
Modeling Maxwell's demon with a microcanonical Szilard engine
Suriyanarayanan Vaikuntanathan, Christopher Jarzynski
On the work distribution for the adiabatic compression of a dilute classical gas
Gavin E. Crooks, Christopher Jarzynski
Reply to comments by D.H.E. Gross
Christopher Jarzynski
Universal energy diffusion in a quivering billiard
Jeffery Demers, Christopher Jarzynski
Classical and quantum shortcuts to adiabaticity for scale-invariant driving
Sebastian Deffner, Christopher Jarzynski, Adolfo del Campo
Escorted Free Energy Simulations: Improving Convergence by Reducing Dissipation
Suriyanarayanan Vaikuntanathan, Christopher Jarzynski
Heat dissipation and fluctuations in a driven quantum dot
Andrea Hofmann, Ville F. Maisi, Julien Basset +5
Similarities and Differences Between Nonequilibrium Steady States and Time-Periodic Driving in Diffusive Systems
Daniel M. Busiello, Christopher Jarzynski, Oren Raz
Path-integral analysis of fluctuation theorems for general Langevin processes
Vladimir Y. Chernyak, Michael Chertkov, Christopher Jarzynski
Analysis of slow transitions between nonequilibrium steady states
Dibyendu Mandal, Christopher Jarzynski
An illustrative example of the relationship between dissipation and relative entropy
Jordan Horowitz, Christopher Jarzynski
Non-conservative Forces via Quantum Reservoir Engineering
Shanon L. Vuglar, Dmitry V. Zhdanov, Renan Cabrera +3
Work and information processing in a solvable model of Maxwell's demon
Dibyendu Mandal, Christopher Jarzynski
Nonequilibrium thermodynamics at the microscale: Work relations and the second law
Eliran Boksenbojm, Bram Wynants, Christopher Jarzynski
Geometric phase effects for wavepacket revivals
Christopher Jarzynski