Dingbang Xu scite author profile

The constraint relation for efficiency and power is crucial to design optimal heat engines operating within finite time. We find a universal constraint between efficiency and output power for heat engines operating in the low-dissipation regime. Such constraint is validated with an example of Carnot-like engine. Its microscopic dynamics is governed by the master equation. Based on the master equation, we connect the microscopic coupling strengths to the generic parameters in the phenomenological model. We find the usual assumption of low-dissipation is achieved when the coupling to thermal environments is stronger than the driving speed. Additionally, such connection allows the design of practical cycle to optimize the engine performance.PACS numbers: to be added later arXiv:1802.09806v4 [quant-ph]

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Polaron effects on the performance of light-harvesting systems: a quantum heat engine perspective

Wang

Zhao

et al. 2016

New J. Phys.

103

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We explore energy transfer in a generic three-level system, which is coupled to three non-equilibrium baths. Built on the concept of quantum heat engine, our three-level model describes non-equilibrium quantum processes including light-harvesting energy transfer, nano-scale heat transfer, photoinduced isomerization, and photovoltaics in double quantum-dots. In the context of light-harvesting, the excitation energy is first pumped up by sunlight, then is transferred via two excited states which are coupled to a phonon bath, and finally decays to the reaction center. The efficiency of this process is evaluated by steady state analysis via a polaron-transformed master equation; thus the entire range of the system-phonon coupling strength can be covered. We show that the coupling with the phonon bath not only modifies the steady state, resulting in population inversion, but also introduces a finite steady state coherence which optimizes the energy transfer flux and efficiency. In the strong coupling limit, the steady state coherence disappears and the efficiency recovers the heat engine limit given by Scovil and Schultz-Dubois (1959 Phys. Rev. Lett. 2 262).

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GABA_Areceptors are expressed and facilitate relaxation in airway smooth muscle

Mizuta¹,

Xu²,

Pan³

et al. 2008

American Journal of Physiology-Lung Cellular and Molecular Phys

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Gamma-aminobutyric acid (GABA) is the major inhibitory neurotransmitter in the mammalian central nervous system and exerts its actions via both ionotropic (GABA(A)) channels and metabotropic (GABA(B)) receptors. GABA(A) channels are ubiquitously expressed in neuronal tissues, and in mature neurons modulate an inward chloride current resulting in neuronal inhibition due to membrane hyperpolarization. In airway smooth muscle (ASM) cells, membrane hyperpolarization favors smooth muscle relaxation. Although GABA(A) channels and GABA(B) receptors have been functionally identified on peripheral nerves in the lung, GABA(A) channels have never been identified on ASM itself. We detected the mRNA encoding of the GABA(A) alpha(4)-, alpha(5)-, beta(3)-, delta-, gamma(1-3)-, pi-, and theta-subunits in total RNA isolated from native human and guinea pig ASM and from cultured human ASM cells. Selected immunoblots identified the GABA(A) alpha(4)-, alpha(5)-, beta(3)-, and gamma(2)-subunit proteins in native human and guinea pig ASM and cultured human ASM cells. The GABA(A) beta(3)-subunit protein was immunohistochemically localized to ASM in guinea pig tracheal rings. While muscimol, a specific GABA(A) channel agonist, did not affect the magnitude or the time to peak contractile effect of substance P, it directly concentration dependently relaxed a tachykinin-induced contraction in guinea pig tracheal rings, which was inhibited by the GABA(A)-selective antagonist gabazine. Muscimol also relaxed a contraction induced by an alternative contractile agonist histamine. These results demonstrate that functional GABA(A) channels are expressed on ASM and suggest a novel therapeutic target for the relaxation of ASM in diseases such as asthma and chronic obstructive lung disease.

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The influence of type and concentration of the carbon source on production of citric acid by Aspergillus niger

Madrid

Röhr

et al. 1989

Appl Microbiol Biotechnol

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Efficiency at maximum power of a laser quantum heat engine enhanced by noise-induced coherence

Dorfman

Cao

2018

Phys. Rev. E

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Quantum coherence has been demonstrated in various systems including organic solar cells and solid state devices. In this article, we report the lower and upper bounds for the performance of quantum heat engines determined by the efficiency at maximum power. Our prediction based on the canonical three-level Scovil and Schulz-Dubois maser model strongly depends on the ratio of system-bath couplings for the hot and cold baths and recovers the theoretical bounds established previously for the Carnot engine. Further, introducing a fourth level to the maser model can enhance the maximal power and its efficiency, thus demonstrating the importance of quantum coherence in the thermodynamics and operation of the heat engines beyond the classical limit.

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Non-canonical distribution and non-equilibrium transport beyond weak system-bath coupling regime: A polaron transformation approach

Cao

2016

Front. Phys.

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The concept of polaron, emerged from condense matter physics, describes the dynamical interaction of moving particle with its surrounding bosonic modes. This concept has been developed into a useful method to treat open quantum systems with a complete range of system-bath coupling strength. Especially, the polaron transformation approach shows its validity in the intermediate coupling regime, in which the Redfield equation or Fermi's golden rule will fail. In the polaron frame, the equilibrium distribution carried out by perturbative expansion presents a deviation from the canonical distribution, which is beyond the usual weak coupling assumption in thermodynamics. A polaron transformed Redfield equation (PTRE) not only reproduces the dissipative quantum dynamics but also provides an accurate and efficient way to calculate the non-equilibrium steady states. Applications of the PTRE approach to problems such as exciton diffusion, heat transport and light-harvesting energy transfer are presented.

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Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation

Gallos

Yim

Chang

et al. 2012

American Journal of Physiology-Lung Cellular and Molecular Phys

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The prevalence of asthma has taken on pandemic proportions. Since this disease predisposes patients to severe acute airway constriction, novel mechanisms capable of promoting airway smooth muscle relaxation would be clinically valuable. We have recently demonstrated that activation of endogenous airway smooth muscle GABAA receptors potentiates ␤-adrenoceptor-mediated relaxation, and molecular analysis of airway smooth muscle reveals that the ␣-subunit component of these GABAA receptors is limited to the ␣4-and ␣5-subunits. We questioned whether ligands with selective affinity for these GABAA receptors could promote relaxation of airway smooth muscle. RT-PCR analysis of GABAA receptor subunits was performed on RNA isolated by laser capture microdissection from human and guinea pig airway smooth muscle. Membrane potential and chloride-mediated current were measured in response to GABAA subunit-selective agonists in cultured human airway smooth muscle cells. Functional relaxation of precontracted guinea pig tracheal rings was assessed in the absence and presence of the ␣4-subunit-selective GABAA receptor agonists: gaboxadol, taurine, and a novel 8-methoxy imidazobenzodiazepine (CM-D-45). Only messenger RNA encoding the ␣4-and ␣5-GABAA receptor subunits was identified in RNA isolated by laser capture dissection from guinea pig and human airway smooth muscle tissues. Activation of airway smooth muscle GABAA receptors with agonists selective for these subunits resulted in appropriate membrane potential changes and chloride currents and promoted relaxation of airway smooth muscle. In conclusion, selective subunit targeting of endogenous airway smooth muscle-specific GABAA receptors may represent a novel therapeutic option for patients in severe bronchospasm.

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Dingbang Xu

Analysis of the Phase-Shifted Carrier Modulation for Modular Multilevel Converters

Universal constraint for efficiency and power of a low-dissipation heat engine

Polaron effects on the performance of light-harvesting systems: a quantum heat engine perspective

GABA_Areceptors are expressed and facilitate relaxation in airway smooth muscle

The influence of type and concentration of the carbon source on production of citric acid by Aspergillus niger

Efficiency at maximum power of a laser quantum heat engine enhanced by noise-induced coherence

Non-canonical distribution and non-equilibrium transport beyond weak system-bath coupling regime: A polaron transformation approach

Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation

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Dingbang Xu

Analysis of the Phase-Shifted Carrier Modulation for Modular Multilevel Converters

Universal constraint for efficiency and power of a low-dissipation heat engine

Polaron effects on the performance of light-harvesting systems: a quantum heat engine perspective

GABAAreceptors are expressed and facilitate relaxation in airway smooth muscle

The influence of type and concentration of the carbon source on production of citric acid by Aspergillus niger

Efficiency at maximum power of a laser quantum heat engine enhanced by noise-induced coherence

Non-canonical distribution and non-equilibrium transport beyond weak system-bath coupling regime: A polaron transformation approach

Targeting the restricted α-subunit repertoire of airway smooth muscle GABAA receptors augments airway smooth muscle relaxation

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Product

Resources

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GABA_Areceptors are expressed and facilitate relaxation in airway smooth muscle

Targeting the restricted α-subunit repertoire of airway smooth muscle GABA_A receptors augments airway smooth muscle relaxation