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Journal Abstract Search


270 related items for PubMed ID: 24745399

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  • 5. Efficiency at maximum power output of linear irreversible Carnot-like heat engines.
    Wang Y, Tu ZC.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2012 Jan; 85(1 Pt 1):011127. PubMed ID: 22400532
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  • 7. Thermodynamics of the mesoscopic thermoelectric heat engine beyond the linear-response regime.
    Yamamoto K, Hatano N.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2015 Oct; 92(4):042165. PubMed ID: 26565226
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  • 8. A quantum-dot heat engine operating close to the thermodynamic efficiency limits.
    Josefsson M, Svilans A, Burke AM, Hoffmann EA, Fahlvik S, Thelander C, Leijnse M, Linke H.
    Nat Nanotechnol; 2018 Oct; 13(10):920-924. PubMed ID: 30013221
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  • 9. Power, Efficiency and Fluctuations in a Quantum Point Contact as Steady-State Thermoelectric Heat Engine.
    Kheradsoud S, Dashti N, Misiorny M, Potts PP, Splettstoesser J, Samuelsson P.
    Entropy (Basel); 2019 Aug 08; 21(8):. PubMed ID: 33267490
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  • 11. Efficiency at maximum power of thermally coupled heat engines.
    Apertet Y, Ouerdane H, Goupil C, Lecoeur P.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2012 Apr 08; 85(4 Pt 1):041144. PubMed ID: 22680454
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  • 12. Maximum power and the corresponding efficiency for a Carnot-like thermoelectric cycle based on fluctuation theorem.
    Hua Y, Guo ZY.
    Phys Rev E; 2024 Feb 08; 109(2-1):024130. PubMed ID: 38491639
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  • 17. Carnot cycle at finite power: attainability of maximal efficiency.
    Allahverdyan AE, Hovhannisyan KV, Melkikh AV, Gevorkian SG.
    Phys Rev Lett; 2013 Aug 02; 111(5):050601. PubMed ID: 23952379
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  • 19. Performance of a multilevel quantum heat engine of an ideal N-particle Fermi system.
    Wang R, Wang J, He J, Ma Y.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2012 Aug 02; 86(2 Pt 1):021133. PubMed ID: 23005748
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