G. L. Zanin scite author profile

Maxwell's Demon is at the heart of the interrelation between quantum information processing and thermodynamics. In this thought experiment, a demon generates a temperature gradient between two thermal baths initially at equilibrium by gaining information at the single-particle level and applying classical feed-forward operations, allowing for the extraction of work. Here we implement a photonic version of Maxwell's Demon with active feed-forward in a fibre-based system using ultrafast optical switches. We experimentally show that, if correlations exist between the two thermal baths, the Demon can generate a temperature difference over an order of magnitude larger than without correlations, and so extract more work. Our work demonstrates the great potential of photonic experiments – which provide a unique degree of control on the system – to access new regimes in quantum thermodynamics.

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G. L. Zanin

Experimental study of the generalized Jarzynski fluctuation relation using entangled photons

Experimental Quantum Thermodynamics with Linear Optics

Rotational excitation of H2 by positron impact in adiabatic rotational approximation

Enhanced Photonic Maxwell's Demon with Correlated Baths

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G. L. Zanin

Experimental study of the generalized Jarzynski fluctuation relation using entangled photons

Experimental Quantum Thermodynamics with Linear Optics

Rotational excitation of H2 by positron impact in adiabatic rotational approximation

Enhanced Photonic Maxwell&apos;s Demon with Correlated Baths

Contact Info

Product

Resources

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Enhanced Photonic Maxwell's Demon with Correlated Baths