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Quantum Institute : 2015 Quantum Lunch Seminar Schedule


  • Coordinator
    Sebastian Deffner
  • Quantum Lunch Location:
    T-Division Conference Room, TA-3,
    Building 123, Room 121

Quantum Institute: Visitor Schedule

The Quantum Lunch is regularly held on Thursdays in the Theoretical Division Conference Room, TA-3, Building 123, Room 121.

The organizing committee includes Malcolm Boshier (P-21), Diego Dalvit (T-4), Michael Di Rosa (C-PCS), Sebastian Deffner (T-4 & CNLS), Changhyun Ryu (P-21) , Nikolai Sinitsyn (T-4), Rolando Somma (T-4), Christopher Ticknor (T-1), and Wojciech Zurek (T-4).

For more information, or to nominate a speaker, contact Sebastian Deffner.

To add your name to the Quantum Lunch email list, contact Ellie Vigil.

Thursday April 30, 2015
12:30 PM - 2:00 PM
Physics Auditorium

Speaker: Chris Jarzynski (University of Maryland)

Technical Host: Sebastian Deffner

TOPIC: Defining work in quantum mechanics: interfering trajectories and decohering heat baths

The question of how to define the work performed on a quantum system undergoing a thermodynamic process has recently received much attention, particularly in the context of nonequilibrium work relations. The first part of my talk concerns the link between classical and quantum definitions of work for a thermally isolated system. I will show that the quantum work distribution can be approximated accurately in terms of classical trajectories that interfere coherently, via path-integral phases, and I will extend this result to describe tunneling into the classically forbidden region. These results provide justification for a definition of quantum work based on initial and final projective energy measurements.

The second part of the talk concerns the work performed on a quantum system that is weakly coupled to a thermal environment. The coupling strength is presumed to be sufficient to bring about decoherence - thereby altering the quantum work distribution - but insufficient to allow for substantial energy exchange between system and environment. I will argue that in this situation the quantum work is again naturally defined as the difference between initial and final projective energy measurements, and that nonequilibrium work relations remain valid within this scheme.

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