Nonlinear Dynamics in a Nonextensive Complex Plasma with Viscous Electron Fluids

Cylindrical and spherical dust-electron-acoustic （DEA） shock waves and double layers in an unmagnetized, col- lisionless, complex or dusty plasma system are carried out. The plasma system is assumed to be composed of inertial and viscous cold electron fluids, nonextensive distributed hot electrons, Maxwellian ions, and negatively charged stationary dust grains. The standard reductive perturbation technique is used to derive the nonlinear dynamical equations, that is, the nonplanar Burgers equation and the nonplanar further Burgers equation. They are also numerically analyzed to investigate the basic features of shock waves and double layers （DLs）. It is observed that the roles of the viscous cold electron fluids, nonextensivity of hot electrons, and other plasma parameters in this investigation have significantly modified the basic features （such as, polarity, amplitude and width） of the nonplanar DEA shock waves and DLs. It is also observed that the strength of the shock is maximal for the spherical geometry, intermediate for cylindrical geometry, while it is minimal for the planar geometry. The findings of our results obtained from this theoretical investigation may be useful in understanding the nonlinear phenomena associated with the nonplanar DEA waves in both space and laboratory plasmas.

Electric field in two-dimensional complex plasma crystal:Simulated lattices

We focus on molecular dynamics simulated two-dimensional complex plasma crystals. We use rigid walls as a confinement force and produce square and rectangular crystals. We report various types of two-row crystals. The narrow and long crystals are likely to be used as wigglers; therefore, we simulate such crystals. Also, we analyze the electric fields of simulated crystals. A bit change in lattice parameters can change the internal structures of crystals and their electric fields notably. These parameters are the number of grains, grains charge, length, and width of the crystal. With the help of electric fields, we show the details of crystal structures.

Effect of Electron and/or Ion Nonthermality on Dust Acoustic Wave Propagation in a Complex Plasma in Presence of Positively Charged Dust Grains Generated by Secondary Electron Emission Process

In this paper we have developed a model to study the role of both electron and ion nonthermalities on dust acoustic wave propagation in a complex plasma in presence of positively charged dust grains. Secondary electron emission from dust grains has been considered as the source of positive dust charging. As secondary emission current depends on the flux of primary electrons, nonthermality of primary electrons changes the expression of secondary emission current from that of earlier work where primary electrons were thermal. Expression of nonthermal electron current flowing to the positively charged dust grains and consequently the expression of secondary electron current flowing out of the dust grains have been first time calculated in this paper, whereas the expression for nonthermal ion current flowing to the positively charged dust grains is present in existing literature. Dispersion relation of dust acoustic wave has been derived. From this dispersion relation real frequency and growth rate of the wave have been calculated. Results have been plotted for different strength of nonthermalities of electrons and ions.

Onset of Linear Instability in a Complex Plasma with Cairns Distributed Electrons

A rigorous theoretical investigation of linear dust ion acoustic (DIA) solitary waves in an unmagnetized complex plasma consisting of ion and ion beam fluids, nonthermal electrons that are Cairns distributed and immobile dust particles were undertaken. It was found out that, for large beam speeds, three stable modes propagated as solitary waves in the beam plasma. These were the “Fast”, “Slow” and “Ion-acoustic” modes. For two stream instability to occur between ion and ion beam, it is shown that or when .

Ion Nonthermality Induced Nonlinear Dust Acoustic Wave Propagation in a Complex Plasma in Presence of Weak Secondary Electron Emission from Dust Grains

In this paper we have investigated the effect of ion nonthermality on nonlinear dust acoustic wave propagation in a complex plasma in presence of weak secondary electron emission from dust grains. Equilibrium dust charge in this case is negative. Dusty plasma under our consideration consists of inertialess nonthermal ions, Boltzman distributed primary and secondary electrons and negatively charged inertial dust grains. Both adiabatic and nonadiabatic dust charge variations have been taken into account. Our analysis shows that in case of adiabatic dust charge variation, at a fixed non-zero ion nonthermality increasing secondary electron emission decreases amplitude and increases width of the rarefied dust acoustic soliton whereas for a fixed secondary electron yield increasing ion nonthermality increases amplitude and decreases width of such rarefied dust acoustic soliton. Thus shape of the soliton may be retained if strength of both the secondary electron yield and the ion nonthermality are increased. Nonadiabatic dust charge variation shows that, at fixed non-zero ion nonthermality, increasing secondary electron emission suppresses oscillation of oscillatory dust acoustic shock at weak nonadiabaticity and pronounces monotonicity of monotonic dust acoustic shock at strong nonadiabaticity. On the other hand at a fixed value of the secondary electron yield, increasing ion nonthermality enhances oscillation of oscillatory dust acoustic shock at weak nonadiabaticity and reduces monotonicity of monotonic dust acoustic shock at strong nonadiabaticity. Thus nature of dust acoustic shock may also remain unchanged if both secondary electron yield and ion nonthermality are increased.

On the dynamics of nonlinear propagation and interaction of the modified KP solitons in multicomponent complex plasmas

Dust-acoustic waves(DAWs)are analyzed in the small amplitude limit in a collisionless unmagnetized dusty plasma whose constituents are inertial dust grains,massless ions expressed by the generalized(r,q)distribution and inertialess Maxwellian electrons using the fluid theory of plasmas.The modified Kadomtsev-Petviashvili(mKP)equation is derived at a critical plasma condition for which the quadratic nonlinearity vanishes.The propagation of single soliton and interaction of two solitons are analyzed for the mKP equation in the context of plasma physics by employing Hirota bilinear formalism.The effects of the flatness parameter rand tail parameter q of the ions on the frequency of the DAWs are studied and the comparison with Maxwellian and kappa distributions is drawn.Using the plasma parameters corresponding to the Saturn’s E-ring,the range of electric field amplitude for dust-acoustic solitary waves(DASWs)for different ion distributions is calculated and is shown to agree very well with the Cassini Wideband Receiver(WBR)observations.The interaction time of two DASWs for non-Maxwellian ion distributions is estimated and shown to be fastest for the(r,q)distributed ions.The interesting feature of the interaction between compressive solitons with their rarefactive counterparts is also discussed in detail.

Thermal Conductivity of Complex Plasmas Using Novel Evan-Gillan Approach

The thermal conductivity of complex fluid materials(dusty plasmas) has been explored through novel Evan-Gillan homogeneous non-equilibrium molecular dynamic(HNEMD) algorithm. The thermal conductivity coefficient obtained from HNEMD is dependent on various plasma parameters(Γ, κ). The proposed algorithm gives accurate results with fast convergence and small size effect over a wide range of plasma parameters. The cross microscopic heat energy current is discussed in association with variation of temperature(1/Γ) and external perturbations(P_z). The thermal conductivity obtained from HNEMD simulations is found to be very good agreement and more reliable than previously known numerical techniques of equilibrium molecular dynamic, nonequilibrium molecular dynamic simulations. Our new investigations point to an effective conclusion that the thermal conductivity of complex dusty plasmas is dependent on an extensive range of plasma coupling(Γ) and screening parameter(κ) and it varies by the alteration in these parameters.It is also shown that a different approach is used for computations of thermal conductivity in 2D complex plasmas and can be appropriate method for behaviors of complex systems.

Superiority of Prothrombin Complex Concentrate versus Frozen Fresh Plasma in Cardiology Patients with Warfarin Intoxication–Observational Study

Objective: The objective of this study was to analyse the reversibility of the anticoagulant effect of warfarin by comparing prothrombin complex concentrate (PCC) versus frozen fresh plasma (FFP) in cardiology patients with serious warfarin intoxication. Methods: This was an observational and retrospective study comprising 67 patients (18 in group I [PCC] and 49 in group II [FFP]). The primary endpoint was the reversal of anticoagulant effect of warfarin after 2 and 24 hours of PCC or FFP administration. Comparisons between the groups were made using T-test and Q-square. Multivariate analyses were conducted using logistic regression, and the results were considered significant when p Results: The medium dose used was 27.6 UI/kg of PCC and 14.5 ml/kg of FFP. Significant differences were observed between groups I and II in the INR reversibility measurements after 2 hours (33.3% vs. 6.1%, p = 0.001) and 24 hours (38.9% vs. 12.2%, p = 0.009) as well as in the occurrence of pulmonary edema (5.6% vs. 42.9%, OR = 11.10, p = 0.04). The AUC for PCC was 0.891 (CI 95% [0.72 - 1.0]), and for FFP, it was 0.291 (CI 95% [0.09 - 0.49]). Conclusions: PCC is better than FFP treatment in reversing the warfarin intoxication after 2 and 24 hours of administration. Furthermore, PCC showed lower pulmonary edema in cardiology patients.

Realization of non HF air plasma cutting power source based on a complexisolated inverter

On the basis of analyzing and testing of common inverting circuits, a new type inverter, which has a special inverting circuit called complex isolated, has been put forward. In turn, an applicable air plasma cutting machine has also been put into use. Testing results show that this kind inverter has lots of properties as high reliability, high efficiency, good EMC(electromagnetic compatibility) and easy operating. The complex isolated inverting circuit can be considered as a quite valuable reference for the research of high power welding inverter.

常压密闭微波消解-电感耦合等离子体质谱法测定磷矿石中的稀土元素

磷矿石中的稀土元素测定方法主要使用电感耦合等离子体质谱法(ICP-MS),样品处理方式主要采用敞口混合酸溶和碱熔。传统的酸溶和碱熔处理矿石样品时间较长,试剂加入量大,操作过程较为繁琐,且易造成环境污染。微波消解直接向样品释放能量,工作效率高,且易挥发元素被保留在消化溶液中,防止挥发造成结果偏差及环境污染。本文采用微波消解对磷矿石进行处理,并在二次消解过程中加入饱和硼酸络合溶矿过程中产生的不溶物氟化钙,在线加入铑和铼双内标的方式,建立了ICP-MS测定磷矿石中15种稀土元素的方法。结果表明:二次消解过程中加入饱和硼酸能有效地络合沉淀,彻底溶解样品,经上机测定后15种稀土元素的相对标准偏差(RSD)在0.68%~4.52%之间,回收率在93.1%~106.6%之间,方法检出限为0.003~0.029μg/g。选取两个磷矿石样品,用本方法与混合酸(盐酸-硝酸-氢氟酸-硫酸)酸溶方法进行对比试验,相对标准偏差在-5.82%~5.99%之间,表明本方法测定稀土元素是有效可行的。对于样品的前处理方法,酸溶、碱熔和微波消解都有各自的特点,微波密封消解能避免一些能形成易挥发组分的损失并且外源性污染少。本方法拓展了测定磷矿石中稀土元素的样品前处理方法,操作性强,是对现行方法的有益补充。

电感耦合等离子体质谱法测定复杂高温合金中微量硅

以混酸低温加热方式溶解合金,采用电感耦合等离子体质谱法测定复杂高温合金中微量硅。通过实验前准备、动能歧视和完全匹配基体消除二次污染、多原子离子干扰和共存元素干扰。采用5 mL盐酸、0.5 mL硝酸和几滴氢氟酸作溶剂,于80℃加热溶解合金样品,以Sc为内标校正仪器波动产生的影响。以硅的信号强度值为纵坐标,其质量分数为横坐标,绘制标准工作曲线,质量分数在0.002%~0.10%范围内线性良好,相关系数为0.999,检出限为0.0003%。样品加标平均回收率为90.0%~110.0%,测定结果的相对标准偏差不大于2.0%(n=6)。该方法操作简便,能够满足日常测试要求。

New method for rekindling the explosive waves in Maxwellian space plasmas

Our interest is to study the nonlinear wave phenomena in complex plasma constituents with Maxwellian electrons and ions. The main aim is to use a new method known as the(G′/G)method to exhibit the effects of dust charge fluctuations on the evolution of nonlinear waves. The coherent features of the shock and solitary waves along with the generation of high-energy waves have been amplified through the solution of the Korteweg–de Vries–Burgers equation,and the different natures of the waves were found successfully. Results are discussed graphically with the thoughtful choice of typical plasma parameters from different space plasma environments, exactly those found in cosmic dusty plasmas laden in ionospheric auroral region,radial spokes of Saturn's rings, planetary nebulae and solar F-corona region. All conclusions are in good accordance with the actual occurrences and could be of interest to further investigations of space. Moreover, the applicability of the present method is hoped to be a great enhancement by its use as ingenious mechanism used to evaluate the soliton dynamics and Burgers shock waves.

高危人工流产术后应用芬吗通预防宫腔粘连的效果分析

目的分析高危人工流产术后应用雌二醇片/雌二醇地屈孕酮片(商品名:芬吗通)预防宫腔粘连(IUA)的效果。方法66例接受高危人工流产手术患者,按照年龄、孕周、孕产次、子宫畸形、抽烟等均衡分为对照组和观察组,每组33例。对照组术后采用传统治疗,观察组术后在对照组基础上使用芬吗通。比较两组患者治疗前后血液流变学指标、白细胞介素水平及IUA发生情况。结果治疗后,观察组全血粘度、血浆粘度分别为(3.58±1.21)、(1.34±0.14)mPa·s,低于对照组的(5.67±1.39)、(1.49±0.23)mPa·s(P<0.05)。治疗前,观察组白细胞介素-10(IL-10)、白细胞介素-18(IL-18)水平分别为(1003.06±196.66)、(176.32±29.21)ng/L,对照组分别为(1008.37±193.18)、(175.78±29.45)ng/L;治疗后,观察组IL-10、IL-18水平分别为(3102.54±583.27)、(113.15±23.62)ng/L,对照组分别为(2647.63±521.53)、(130.09±18.30)ng/L。治疗后,两组IL-10水平均明显升高,IL-18水平均明显降低,且观察组IL-10水平较对照组高,IL-18水平较对照组低(t=3.340、3.257,P<0.05)。观察组术后IUA发生率为3.03%,较对照组的24.24%低(P<0.05)。结论高危人工流产术后应用芬吗通预防IUA疗效显著且安全,可借鉴。

一种C波段雷达接收机防护技术研究

随着战场环境日益复杂,尤其是高对抗环境下,对现有各类装备均产生了极大威胁。设计了一款C波段雷达接收机保护器,采用充气微波开关管+波导同轴转换的结构设计,创新性地提出将固态限幅器芯片融合在波导同轴转换内部,限幅芯片采用级联的形式,提高了微带限幅器的承受功率。实现接收机保护器耐受功率10 MW以上,响应时间5 ns以内,不仅可用于雷达发射期间接收机防护,还可应对外部电磁干扰、高功率微波攻击。

电感耦合等离子体法(ICP法)测定镍钴锰三元复合氢氧化物中的微量磷元素

本文探讨了一种采用电感耦合等离子体(ICP)法测定镍钴锰三元复合氢氧化物中微量磷元素的方法。磷元素对材料的电化学性能有显著影响,因此,准确测量其含量对于优化电池性能和质量至关重要。本文采用的ICP法是一种高灵敏度、高准确度的测量技术,对于复杂基质中的微量元素测定具有优异的效果。研究结果显示,该方法对于镍钴锰三元复合氢氧化物中的磷元素测定具有良好的线性关系、高精密度和高准确度,干扰小等优点,证明了其在实际应用中的可行性。

利用ICP-OES测定磷酸铁锂中复杂金属杂质的方法实践

随着锂离子电池产业的蓬勃发展,废旧锂离子电池及锂离子电池生产过程中的报废体量剧增,锂离子电池相关的回收产业发展迅猛,其中磷酸铁锂电池的市场最大。无论哪种回收路径,回料中的金属杂质成分都比较复杂,而金属杂质的准确测定,对锂离子电池回收产业至关重要。文中通过高温热解法对样品进行前处理,建立了一种用ICP-OES测量复杂基体中多种金属元素的分析方法。将高温热解得到的磷酸铁锂回料进行高温下的酸消解,然后在ICP-OES中对不同的观测位进行比较。将得到的数据进行测量系统分析,通过计算精度/容差(%P/T)评估最佳的检验能力组合。经过对比,发现270℃的高温消解更利于金属异物的充分溶出,Al(径向)、Na(径向)、Ni(径向)、Mn(径向)、Cr(轴向)、Zn(径向)的ICP-OES观测方位组合能更准确、稳定地分析复杂基体的金属杂质元素组分。该分析方法简单、高效、计算量小,便于快速评估检验能力。在利用ICP-OES进行复杂基体的金属异物分析方面,此方法具有很好的借鉴意义。

Effect of Thermionic Emission on Dust-Acoustic Solitons in a Dust-Electron Plasma

有 verysmall 的灰尘声学的 solitons 上的热电子的排放的效果但是在灰尘电子血浆的有限振幅用减少的 perturbationtechnique 被学习。灰尘充电的前後一致的变化被考虑。thethermionic 排放能显著地增加灰尘正电荷，这被显示出。灰尘温度和灰尘材料的灰尘 workfunction 上的如此的 solitons 的 thephase 速度，振幅，和宽度的依赖被阴谋并且讨论。

STUDY ON TECHNIQUE OF GRANULATION BY HF—PLASMA SPRAYING

The process of complex granules prepared by HF plasma spraying through axial feeding and thermodynamic analysis of the process is described. The densification factors of complex granules is also discussed, the result of which coincides with the test results. The process has the advantages of simple processing, convenient operation, high purity and wide applications. It is an effective way for producing complex granules by multicomponent metallic powders and ceramic metal powders.

Crystalline order and disorder in dusty plasmas investigated by nonequilibrium molecular dynamics simulations

The particle structure of a complex system has been explored through a unique Evans' s homogenous nonequilibrium molecular dynamics(HNEMD) simulation technique. The crystalline order–disorder structures(OD-structures) and the corresponding energies of three-dimensional(3 D) nonideal complex systems(NICSs) have been measured over a wide range of plasma states(■, κ) for a body-centered cubic(BCC) structure. The projected technique provides accurate ODstructures with fast convergence and applicable to very small size effect for different temperatures(≡ 1/■) and constant force field(F~*) values. The OD-structure obtained through HNEMD approach is found to be reasonable agreement and more reliable than those earlier identified by simulation approaches and experimental data of NICSs. New simulations of OD-structures show that dusty plasma remains in crystalline(strongly coupled) state at lower temperature and constant F*values, for the whole simulation runs. Our investigations show that the crystalline structure is changed and the particle structure switches from intermediate to disorder(nonideal gaseous) state with an increase of the system's temperature. It has been shown that the long range order shifts toward lower temperature with increasing κ. The presented technique exhibits that the potential energy has a maximum value when the dusty plasma remains in crystalline states(low temperatures),which confirms earlier 3 D simulation results.

Bulk moduli of two-dimensional Yukawa solids and liquids obtained from periodic compressions

Langevin dynamical simulations are performed to determine the bulk modulus in twodimensional(2D) dusty plasmas from uniform periodic radial compressions. The bulk modulus is calculated directly from its physical definition of the ratio of the internal pressure/stress to the volume strain. Under various conditions, the bulk moduli obtained agree with the previous theoretical derivations from completely different approaches. It is found that the bulk moduli of2D Yukawa solids and liquids are almost independent of the system temperature and the external compressional frequency.