Work as an external quantum observable and an operational quantum work fluctuation theorem
Konstantin Beyer, Kimmo Luoma, Walter T. Strunz
Abstract
We propose a definition of externally measurable quantum work in driven systems. Work is given as a quantum observable on a control device which is forcing the system and can be determined without knowledge of the system Hamiltonian S . We argue that quantum work fluctuation theorems which rely on the knowledge of S are of little practical relevance, contrary to their classical counterparts. Using our framework, we derive a fluctuation theorem which is operationally accessible and could in principle be implemented in experiments to determine bounds on free energy differences of unknown systems.
Topics & Concepts
ObservableWork (physics)QuantumForcing (mathematics)Hamiltonian (control theory)Quantum systemFluctuation theoremPhysicsQuantum operationMathematicsStatistical physicsQuantum processQuantum thermodynamicsQuantum algorithmQuantum fluctuationQuantum mechanicsControl (management)Open quantum systemEnergy (signal processing)Quantum informationTheoretical physicsQuantum dynamicsQuantum dissipationQuantum computerQuantization (signal processing)Hamiltonian systemClassical mechanicsQuantum stateParticle in a boxQuantum measurementPhysical systemQuantum capacityQuantum channelAdvanced Thermodynamics and Statistical MechanicsQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture