Supercritical fluid chromatography of petroleum products using flameless sulfur chemiluminescence detection

Supercritical fluid chromatography using flameless sulfur chemiluminescence detection has been investigated for the analysis of sulfur compounds in petroleum products. The chromatography and detection system was easy to implement and exhibited good precision, linearity, selectivity, and sensitivity. A minimum detectable limit of 0.3 pg sulfur/s was obtained, and response to sulfur in different sulfur species was nearly equimolar.     

用制备型高效液相色谱分离石油亚砜的馏分

用经典硅胶柱色谱法对石油亚砜 (PSO)进行预分离。PSO被分成 4个馏分 (分别记为PSO1,PSO2 ,PSO3和PSO4)。所用的流动相及洗脱顺序 :苯、二氯甲烷、甲醇 二氯甲烷 (1∶1体积比 )、甲醇。经预分离后 ,PSO中的亚砜成分主要富集在馏分PSO3和PSO2中。用高效制备液相色谱法对这两馏分作进一步的分离和纯化。PSO2的色谱条件是 :色谱柱 μ BondapakC1 85 7mm× 30 0mm ;流动相为二氯甲烷、环己烷、甲醇混合液 ,收集经纯化后的组分PSO2g2 2 ;PSO3被分离为 7个馏分 ,其色谱条件为 :色谱柱μ BondapakC1 85 7mm× 30 0mm ;流动相为 70 %～ 10 0 %甲醇 水 ;梯度洗脱其流量为 80mL min ;进样量为80mL 次 (PSO3用 70 %甲醇 水稀释 10倍 )。取其中较纯的馏分PSO3c ,PSO3e ,PSO3g作进一步的色谱纯化 ,色谱条件为C1 8半制备色谱柱 7.8mm× 30 0mm ;流速 :2 0mL min ;流动相 :甲醇 水 70∶ 30 ,V/V(PSO3c)″80∶2 0 ,V V(PSO3e) ;85∶15 ,V V(PSO3g) ;检测器UV 2 5 4nm     

Exact solutions for nonlinear Schr?dinger equation in phase space: applications to Bose－Einstein condensate

The stationary-state nonlinear Schr?dinger equation, which models the dilute-gas Bose－Einstein condensate, is introduced within the framework of the quantum phase-space representation established by Torres-Vega and Frederick. The exact solutions of equation are obtained in the phase space, by means of the wave-mechanics method. The eigenfunctions in position and momentum spaces are obtained through the ‘Fourier-like' projection transformation from the phase space eigenfunctions. The eigenfunction with a hypersecant part is discussed as an example.     

Tunneling Dynamics Between Any Two Multi-atomic-molecular Bose-Einstein Condensates

Tunneling dynamics of multi-atomic molecules between any two multi-atomic molecular Bose-Einstein condensates with Feshbach resonance is investigated. It is indicated that the tunneling in the two Bose-Einstein condensates depends not only on the inter-molecular nonlinear interactions and the initial number of molecule in these condensates, but also on the tunneling coupling between them. It is discovered that besides oscillating tunneling current between the multi-atomic molecular condensates, the nonlinear multi-atomic molecular tunneling dynamics sustains a self-locked population imbalance: a macroscopic quantum self-trapping effect. The influence of de-coherence caused by non-condensate molecule on the tunneling dynamics is studied. It is shown that de-coherence suppresses the multi-atomic molecular tunneling.     

Linear Chemical Potential Dependence of Two-Quark Condensate

By differentiating the inverse dressed quark propagator at finite chemical potential μ with respect to μ, the linear response of the dressed quark propagator to the chemical potential can be obtained. From this we extract a modelindependent formula for the linear chemical potential dependence of the in-medium two-quark condensate and show by two independent methods (explicit calculation and Lorentz covariance arguments) that the first-order contribution in μto the in-medium two-quark condensate vanishes identically. Therefore if one wants to study the in-medium two-quark condensate one should expand to at least the second order in the chemical potential μ.     

Energy Band and Josephson Dynamics of Spin-Orbit Coupled Bose——Einstein Condensates

We theoretically investigate the energy band structure and Josephson dynamics of a spin-orbit coupled Bose-Einstein condensate in a double-well potential. We study the energy band structure and the corresponding tunneling dynamics of the system by properly adjusting the SO coupling, Raman coupling, Zeeman field and atomic interactions. The coupled effects of SO coupling, Raman coupling, Zeeman field and atomic interactions lead to the appearance of complex energy band structure including the loop structure. Particularly, the emergence of the loop structure in energy band also depends on SO coupling, Raman coupling, Zeeman field and atomic interactions. Correspondingly, the Josephson dynamics of the system are strongly related to the energy band structure. Especially, the emergence of the loop structure results in complex tunneling dynamics, including suppression-revival transitions and self-trapping of atoms transfer between two spin states and two wells. This engineering provides a possible means for studying energy level and corresponding dynamics of two-species SO coupled BECs.     

High‐temperature superconductivity and long‐range order in strongly correlated electronic systems

A selective review of the question of how repulsive electron correlations might give rise to off‐diagonal long‐range order (ODLRO) in high‐temperature superconductors is presented. The article makes detailed explanations of the relevance to superconductivity of reduced electronic density matrices and how these can be used to understand whether ODLRO might arise from Coulombic repulsions in strongly correlated electronic systems. Time‐reversed electron pairs on alternant Cuprate and the iron‐based pnictide and chalcogenide lattices may have a weak long‐range attractive tail and much stronger short‐range repulsive Coulomb interaction. The long‐range attractive tail may find its origin in one of the many suggested proposals for high‐T_c superconductivity and thus has an uncertain origin. A phenomenological Hamiltonian is invoked whose model parameters are obtained by fitting to experimental data. A detailed summary is given of the arguments that such interacting electrons can cooperate to produce a superconducting state in which time‐reversed pairs of electrons effectively avoid the repulsive hard‐core of the Coulomb interaction but reside on average in the attractive well of the long‐range potential. Thus, the pairing of electrons itself provides an enhanced screening mechanism. The alternant lattice structure is the key to achieving robust high‐temperature superconductivity with dx²‐y² or sign alternating s‐wave or s± condensate symmetries in cuprates and iron‐based compounds. Some attention is also given to the question first raised by Leggett as to where the Coulombic energy is saved in the superconducting transition in cuprates. A mean‐field‐type model in which the condensate density serves as an order parameter is discussed. Many of the observed trends in the thermal properties of cuprate superconductors are reproduced giving strong support for the proposed model for high‐temperature superconductivity in such strongly correlated electronic systems. © 2015 Wiley Periodicals, Inc.     

Analysis of characteristics of pressure curve in gas-condensate wells

This paper utilizes a flow equation with a sink item that describes the characteristics of pressure-time chart when the pressure is higher than the maximum condensate pressure.We have established a sink item to show the influence of accumulation of condensate liquid according to Duhamet Principle of Superposition,and introduced two coefficients for it:condensing strength R_D and condensing relaxation timeλ_D.This paper gives the principle and the quantitative expression of the well pressure influenced by condensate function in the flow equation.An analytical solution for an infinite system is obtained(constant rate).These results can be used to analyse the unsteady flow test of constant production.     

气相色谱-场电离飞行时间质谱测定中间馏分油中链烷烃的形态分布

利用气相色谱-场电离飞行时间质谱技术( GC-FI TOF MS)建立了中间馏分油中不同异构程度链烷烃的碳数分布表征方法。首先利用GC-FI TOF MS技术对不同异构程度的链烷烃进行分离、鉴别,然后建立了中间馏分油沸点范围内正构烷烃、异构烷烃在GC-FI TOF MS测定时的相对响应因子算法及不同异构程度链烷烃的碳数分布算法,最后考察此定量方法的精密度和准确度。结果表明,GC-FI TOF MS可以将同碳数链烷烃区分为异构程度不同的3部分：多取代基异构烷烃、单取代基异构烷烃和正构烷烃;可利用GC-FI TOF MS对异构程度不同的链烷烃进行定量分析,精密度较好,相对偏差小于15%。此方法无需进行样品预分离,可直接进样分析,缩短了分析时间,且首次提供了不同异构程度异构烷烃的碳数分布信息。     

Charged pion condensation in anti-parallel electromagnetic fields and nonzero isospin density

The formation of charged pion condensate in anti-parallel electromagnetic fields and in the presence of the isospin chemical potential is studied in the two-flavor Nambu-Jona-Lasinio model.The method of Schwinger proper time is extended to explore the quantities in the off-diagonal flavor space,i.e.the charged pion.In this framework,π^± are treated as bound states of quarks and not as point-like charged particles.The isospin chemical potential plays the role of a trigger for charged pion condensation.We obtain the associated effective potential as a function of the strength of the electromagnetic fields and find that it contains a sextic term which possibly induces a weak first order phase transition.The dependence of pion condensation on model parameters is investigated.