Anisotropic pressure of a quantum gas in confined space

Pang H.; Dong C.-W.; Qiu R.-T.; Zhang Y.-B.

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Anisotropic pressure of a quantum gas in confined space

机译：密闭空间中量子气体的各向异性压力

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In confined space, the thermodynamic potential is shape-dependent. Therefore, the pressure of ideal gases in confined space is anisotropic. We study this anisotropy in a thermodynamic manner and find that the thermodynamic pressures usually depend on the form of deformations, and hence are not equal to each other which is a natural representation of the anisotropic mechanical properties of a confined ideal gas. We also find that the boundary effects are much more significant than the statistical fluctuations under lowerature and high-density conditions. Finally, we show that there is little difference between the boundary effects in 2D space and those in 3D space.

机译：在狭窄的空间中，热力学势是与形状有关的。因此，密闭空间中理想气体的压力是各向异性的。我们以热力学的方式研究这种各向异性，发现热力学压力通常取决于变形的形式，因此彼此不相等，这自然是受限理想气体各向异性力学性质的代表。我们还发现，在低密度和高密度条件下，边界效应比统计波动要重要得多。最后，我们表明2D空间中的边界效应与3D空间中的边界效应之间几乎没有差异。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2010年第26期|共10页
作者
Pang H.; Dong C.-W.; Qiu R.-T.; Zhang Y.-B.;
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正文语种 eng
中图分类应用物理学;
关键词
anisotropy; Ideal gas; pressure; size effect; thermodynamic quantity;

机译：各向异性;理想气体;压力;尺寸效应;热力学量;

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1. Anisotropic pressure of a quantum gas in confined space [J] . Pang H., Dong C.-W., Qiu R.-T., Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2010,第26期

机译：密闭空间中量子气体的各向异性压力
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3. Simple method for predicting pressure behavior during gas explosions in confined spaces considering flame instabilities [J] . Ikuto Nishimura, Toshio Mogi, Ritsu Dobashi Journal of loss prevention in the process industries . 2013,第2期

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4. Investigation of crack propagation with different confining pressure on anisotropic gneiss [C] . B. Vasarhelyi ISRM Regional Symposium Eurock 2001 Jun 4-7, 2001, Espoo/Finland . 2001

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5. Study of quantum confined energy levels in self-organized indium(gallium,aluminum)arsenide/(gallium,aluminum)arsenide quantum dots and their application to mid-infrared sources and detectors. [D] . Krishna, Sanjay. 2001

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6. Penetration by Gases to Sterilize Interior Surfaces of Confined Spaces [O] . John B. Opfell, Yui-Loong Wang, Allan L. Louderback, 1964

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7. Exact results for the Wigner transform phase space densities of a two-dimensional harmonically confined charged quantum gas subjected to a magnetic field [O] . Bencheikh, K., Nieto, L. M. 2008

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8. Water Mitigation of Explosion Effects. Part 1: The Dynamic Pressure from Partially Confined Spaces [R] . Forsen, R., Bryntse, A., Absil, L. H., 1998

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Anisotropic pressure of a quantum gas in confined space

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