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Literature DB >> 21230755

How small can thermal machines be? The smallest possible refrigerator.

Noah Linden¹, Sandu Popescu, Paul Skrzypczyk.

Abstract

We investigate the fundamental dimensional limits to thermodynamic machines. In particular, we show that it is possible to construct self-contained refrigerators (i.e., not requiring external sources of work) consisting of only a small number of qubits and/or qutrits. We present three different models, consisting of two qubits, a qubit and a qutrit with nearest-neighbor interactions, and a single qutrit, respectively. We then investigate the fundamental limits to their performance; in particular, we show that it is possible to cool towards absolute zero.

Year: 2010 PMID： 21230755 DOI： 10.1103/PhysRevLett.105.130401

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

19 in total

How small can thermal machines be? The smallest possible refrigerator.

1. The second laws of quantum thermodynamics.

2. Power enhancement of heat engines via correlated thermalization in a three-level "working fluid".

3. Low-temperature thermodynamics with quantum coherence.

4. The minimal work cost of information processing.

5. Work extraction from heat-powered quantized optomechanical setups.

6. An atomic symmetry-controlled thermal switch.

7. Few-qubit quantum refrigerator for cooling a multi-qubit system.

8. Quantum transport in networks and photosynthetic complexes at the steady state.

9. The thermodynamic cost of driving quantum systems by their boundaries.

10. Quantum-enhanced absorption refrigerators.