MgB2各向异性光学性质的第一性原理研究

使用密度泛函第一性原理研究了超导体MgB₂单晶各向异性的光学性质.在描述光学性质的基本理论和计算方法的基础上,计算了MgB₂的光电导谱、反射谱以及电子能量损失谱,并通过MgB₂的各个原子分解态密度图对所得到的反射谱和损失谱的各个谱峰做了详尽地分析.从光电导谱上来看,x方向与z方向有着很大差别,而在反射谱与电子能量损失谱中,x方向与z方向的特征峰位置都是相互符合的.从光导谱来看,沿 关键词： 超导体 电子结构 光学性质     

Spin-polarized quasiparticle transport in ferromagnet/insulator/p-wave superconductor junction

We have studied the tunneling conductance in ferromagnet/insulator/p-wave superconductor junctions, taking into account the rough interface scattering effect. We find that there exist zero-bias conductance peaks and single-minimum structure in tunneling spectroscopy. As the exchange energy increases, the Andreev reflection is always suppressed and the differential conductance decreases. The differential conductance depends on the barrier strength and the roughness at the interface. Supported by the Natural Science Foundation of Jiangsu Higher Education Institutions, China (Grant No. 06KJB140009)     

三电平大功率并联逆变电源在EAST系统中的应用

针对EAST超导托卡马克装置中的等离子体位移快控电源大电流快速响应的要求,采用三电平结合移相PWM多重化技术,实现多组变流器并联运行,提高了变流器的等效开关频率控制性能,从而改善了电流波形品质。分析了快控电源系统的设计方案和控制方法,并针对移相PWM多重化技术,采用Matlab进行了仿真,验证了设计思想。实验结果表明,该系统设计方案合理、控制策略有效,具备良好的大电流输出和快速响应能力。     

Electron irradiation effects in doped high temperature superconductors YBa2Cu3? x M x O y (M = Fe, Ni; x=0; x =0:01)

The influence of irradiation by electrons with an energy of 8 MeV, at dose intervals between 10¹³ and 2×10¹⁸el/cm², on the properties of impurity doped, high-temperature superconductor YBa₂Cu_3−x M _x O _y (M = Fe, Ni; x=0; x=0:01) ceramics has been studied. It has been established that, as the irradiation dose is increased, the onset temperature of the transition to the superconducting state (T _c ^on ), and the intergranular weak link coupling temperature between granules (T _m ^J ), exhibit an oscillation around their initial values of approximately about 1–1.5 K. This oscillation indicates that the process of radiation defect formation in HTSC occurs in multiple stages. It was also found that the critical current (J _c )decreases with an increase of the irradiation dose, and exhibits a local minimum at a dose of 8×10¹⁶el/cm²coinciding with minima for T _c ^on and T _m ^J at this dose. It was found that the introduction of Fe atoms to the ceramic decreases T _m ^J , while introducing Ni atoms decreases both T _c ^on and T _m ^J ; it is suggested that this is a result of Ni substitution of Cu both in Cu2 plane sites and Cu1 chain sites. The introduction of Ni causes a large change in the intergranular critical current density, J _c . A critical irradiation dose is obtained (2×10¹⁸)after which all HTSC parameters strongly decrease, i. e. the superconductivity of HTSC is destroyed.      

Physical properties of titanates,semiconductors and nickelates derived from ionization energy theory

Ionization energy theory is exploited to predict the changes to atomic polarizability for both anions and cations, the polarization in doped titanates and the energy gap in III–V and II–VI semiconductors. We then extend the above analysis to discuss the physics of metallic and superconducting phases in the recently discovered superconducting nickelates. In doing so, we are able to prove the existence of Ni²⁺ cations and oxygen vacancy in the metallic normal state of nickelates. We find that the normal state resistivity of the nickelates follows exactly as predicted by the ionization energy theory. Quantitative estimates are also given for the concentrations of Ni²⁺ and oxygen vacancy in superconducting nickelates.     

超高灵敏度太赫兹超导探测器

太赫兹(THz)波段一般定义为0.1–10 THz的频率区间, 对应波长范围3 mm–30 μm, 覆盖短毫米波至亚毫米波段(远红外). 尽管人们早已认识到太赫兹波段具有非常重要的科学意义和广泛的应用前景, 但该波段仍然是一个有待全面研究和开发的电磁频率窗口. 因此, 太赫兹波段的天文观测在天体物理及宇宙学研究中具有不可替代的作用, 对于理解宇宙状态和演化具有非常重要的意义. 具有超高灵敏度的太赫兹超导探测器, 已经成为太赫兹波段观测的主要手段. 本文主要阐述了太赫兹超导探测器的基本类型和工作原理, 以及中国科学院紫金山天文台在该领域的主要研究成果和进展.     

高压下富氢高温超导体的研究进展

近年来,高压强极端条件下的富氢化合物成为高温超导体研究的热点目标材料体系.该领域目前取得了两个标志性重要进展,先后发现了共价型H3S富氢超导体(Tc=200 K)和以LaH10(Tc=260 K,–13℃),YH6,YH9等为代表的一类氢笼合物结构的离子型富氢超导体,先后刷新了超导温度的新纪录.这些研究工作燃发了人们在高压下富氢化合物中发现室温超导体的希望.本文重点介绍高压下富氢高温超导体的相关研究进展,讨论富氢化合物产生高温超导电性的物理机理,展望未来在富氢化合物中发现室温超导体的可能性并提出多元富氢化合物候选体系.     

铁基超导线带材研究现状及展望

铁基超导体具有极高的上临界磁场、较小的各向异性、简单的制备工艺等优点,在高场超导磁体、核磁共振谱仪、可控核聚变装置、高能粒子加速器等领域具有重要的应用前景。为满足上述高场强电应用需求,必须制备出高性能超导线带材。文章详细介绍了多种体系铁基超导线带材的研究进展,分析当前线带材研究中存在的问题,提出改善线材传输性能的途径,并对铁基超导线材的发展趋势进行展望。     

从高质量半导体/超导体纳米线到马约拉纳零能模

作为马约拉纳费米子的"凝聚态版本",马约拉纳零能模是当前凝聚态物理领域的研究热点.马约拉纳零能模满足非阿贝尔统计,可以构建受拓扑保护的量子比特.这种由空间上分离的马约拉纳零能模构建的拓扑量子比特不易受局域噪声的干扰,具有长的退相干时间,在容错量子计算中具有重要的应用前景.半导体/超导体纳米线是研究马约拉纳零能模和拓扑量...     

重费米子超导

重费米子材料作为典型的强关联电子体系,具有丰富的物理内涵。重费米子超导也因复杂的电子间相互作用而具有多种不同的超导配对机理。文章以几个典型的重费米子超导体(CeCu₂Si₂、CeMIn₅、UTe₂)为例,介绍其基本物理性质,其中重点讨论超导与反铁磁、铁磁之间密不可分的竞争/共存关系。另外,文章还讨论空间反演中心/时间反演对称性破缺对重费米子超导体序参量的影响。最后,简单介绍了几种比较特殊的竞争序诱导的重费米子超导态。