Litcius/Paper detail

The thermodynamics of clocks

G. J. Milburn

2020Contemporary Physics43 citationsDOIOpen Access PDF

Abstract

All clocks, classical or quantum, are open non equilibrium irreversible systems subject to the constraints of thermodynamics. Using examples I show that these constraints necessarily limit the performance of clocks and that good clocks require large energy dissipation. For periodic clocks, operating on a limit cycle, this is a consequence of phase diffusion. It is also true for non periodic clocks (for example, radio carbon dating) but due to telegraph noise not to phase diffusion. In this case a key role is played by accurate measurements that decrease entropy, thereby raising the free energy of the clock, and requires access to a low entropy reservoir. In the quantum case, for which thermal noise is replaced by quantum noise (spontaneous emission or tunnelling), measurement plays an essential role for both periodic and non periodic clocks. The paper concludes with a discussion of the Tolman relations and Rovelli's thermal time hypothesis in terms of clock thermodynamics.

Topics & Concepts

Limit (mathematics)PhysicsStatistical physicsEntropy (arrow of time)QuantumThermalNoise (video)Thermal equilibriumThermal fluctuationsClassical limitQuantum mechanicsLimit cycleEnergy (signal processing)Periodic orbitsPhase noisePhase (matter)Classical mechanicsQuantum limitQuantum systemThermodynamic limitKey (lock)Advanced Frequency and Time StandardsAdvanced Thermodynamics and Statistical MechanicsNeuroscience and Music Perception