量子气体

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  • quantum gas
量子气体量子气体
  1. 用修改的RK方程,并考虑量子气体H2存在的影响,处理气相的非理想性;用Wilson方程处理液相的非理想性,获得满意结果。

    In this model a modified RK equation noting the presence of the quantum gas H 2 , was used for dealing with the non  ̄ ideality of the gas phase and the Wilson one for liquid phase with satisfaction .

  2. 一维相互作用量子气体的基态和热力学性质

    The Ground State and Thermodynamics of One-Dimensional Quantum Gas

  3. 节流膨胀过程中的理想量子气体

    Ideal Quantum Gas in A Process of Throttling Expansion

  4. 理想量子气体的极端相对论统计态及其分析

    Extreme relativity equation of states of the perfect quantum gas under the high temperature

  5. 简并量子气体的基本性质取决于原子间相互作用的量程、强度及对称性。

    The essential properties of degenerate quantum gases depend on the range , strength and symmetry of atomic interactions .

  6. 一维量子气体发展至今,在实验上和理论上都取得了重大进展。

    Nowadays , the great experimental and theoretical progress has been made in the development of One-Dimensional ( 1D ) quantum gases .

  7. 本文给出理相量子气体在高温条件下极端相对论的状态方程、焓和热容量,并对其规律进行物理分析。

    This paper gives equation of states , enthalpy and heat capacity of the perfect quantum gas under the high temperature and briefly analyzes the laws .

  8. 对氦单层和氦二层体系的第二层低密度量子气体,依简化的准二维运动物理模型,求得了被吸附在石墨基底上的氦原子对之间的有效相互作用。

    By means of the quasi 2D motion picture of adsorbed ~ 4He monolayer or second layer an effective pair potential of Helium atoms has been derived .

  9. 在低温高密极限下,用渐进展开的办法,得到了二维和三维有限空间中理想量子气体的边界修正的表达式。

    In the low-temperature and high-density limit , we obtain the boundary effects on the thermodynamic quantities of two - and three-dimensional ideal quantum gases in finite-size systems .

  10. 由这种有效相互作用所求得的被吸附量子气体的第二维里系数及其二阶导数,比由理想二维物理模型出发所得结果更接近实验数据。

    The second virial coefficients and its second derivatives calculated from this effective potential agree with the experimental data much better than that calculated from the ideal 2-dimension model .

  11. 由此可使理想量子气体的热力学函数表示成统一的简洁形式,并进一步揭示了热波长的物理内涵。

    It makes the thermodynamic functions of an ideal quantum gas may be expressed in a unified compact form , and the physical connotation of the thermal wavelength is revealed further .

  12. 基于理想量子气体的状态方程,分析了量子气体斯特林制冷循环中的回热特征,推导出循环的制冷系数一般表达式。

    Based on the equation of state of the ideal quantum gas , regenerative characteristics of the quantum Stirling refrigeration cycle is analyzed . The general expression for the coefficient of performance is derived .

  13. 根据理想量子气体的粒子数和能量的密度,通过严格的理论推算,给出理想量子气体在高温低密度条件下非相对论和极端相对论能量;

    According to density of particle numbers and energy of perfect quantum gas , by strict theoretical calculation , the energy of non relativity and relativity about perfect quantum gas under high temperature and low density is given .

  14. 量子理想气体热力学性质的普遍性讨论

    A General Demonstration for the Thermodynamic properties of a Quantum Ideal Gas

  15. 金属的自由电子气是一种典型的量子费米气体。

    The free electron gas is a kind of representative quantum Fermi gas .

  16. 微正则系综中极端相对论量子理想气体高温条件下压强的涨落

    Fluctuation of pressure of extreme relativistic quantum perfect gas about Ting canonical assemblages at high temperature

  17. 建立了用于计算量子性气体,超临界极性物质和缔合性极性物质组成复杂化合物的相平衡的一种混合模型。

    In this paper , a model for calculating the vaporliquidliquid equilibrium properties of the complex mixture is set up .

  18. 该文重点介绍了基于量子级联激光器的气体检测系统工作原理、应用及发展趋势。

    The present paper gives a broad review of QCL gas sensing system , including the basic working principle , existing systems , and its application and future development .