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Breaking the limits of purification: postselection enhances heat-bath algorithmic cooling

Aaron Z. Goldberg, Khabat Heshami

2023Journal of Physics Communications10 citationsDOIOpen Access PDF

Abstract

Abstract Quantum technologies require pure states, which are often generated by extreme refrigeration. Heat-bath algorithmic cooling is the theoretically optimal refrigeration technique: it shuttles entropy from a multiparticle system to a thermal bath, thereby generating a quantum state with a high degree of purity. Here, we show how to surpass this hitherto-optimal technique by taking advantage of a single binary-outcome measurement. Our protocols can create arbitrary numbers of pure quantum states without any residual mixedness by using a recently discovered device known as a quantum switch to put two operations in superposition, with postselection certifying the complete purification.

Topics & Concepts

PostselectionSuperposition principleQuantumRefrigerationBinary numberQuantum computerQuantum superpositionQuantum mechanicsResidualComputer sciencePhysicsStatistical physicsThermodynamicsMathematicsAlgorithmQuantum entanglementArithmeticQuantum Information and CryptographyAdvanced Thermodynamics and Statistical MechanicsQuantum Computing Algorithms and Architecture
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