用两带Ginzburg-Landau理论分析MgB_2的能隙

两带GL理论被应用于MgB_2的转变温度和能隙。理论结果和实验结果在高温区拟合得较好,在低温区,大能隙的理论结果和实验差距较大,这主要是由于GL理论只在T_c附近适用。同时,耦合的加入不仅使超导体实际的转变温度高于σ带和π带的本征转变温度,还增大了σ带和π带的本征能隙。

MgB_2状态方程的第一原理计算(英文)

利用基于局域密度近似框架下的第一原理平面波方法,结合HGH型相对论分析赝势,对MgB2的晶格参数和状态方程进行了计算,所得结果与实验值及其他理论得到的计算值相符合。

超导体MgB_2弹性常数的第一原理计算(英文)

利用全势线性muffin tin轨道(FP-LMTO)方法,结合在密度泛函理论框架下的广义梯度近似,研究了六角密堆积结构超导体MgB2的晶格参数,弹性常数,以及体积模量及其对压强的微分。计算结果显示当晶格参数c和a的比率c/a大约为1 138时,MgB2的结构最稳定。本文所得到的计算结果与实验值及其他作者利用不同方法得到的计算值相符合。

TiB_2掺杂MgB_2超导线材临界电流密度和显微结构研究

以低碳钢管为包套材料,采用原位粉末套管法制备出5mol%TiB2掺杂的MgB2超导线材。利用X射线衍射、扫描电子显微镜、能谱分析和标准的直流四电极电阻法分别测试了线材的物相组成、显微结构、化学组成和临界电流密度(Jc)。结果显示,TiB2掺杂能够提高MgB2线材的Jc,使其达到了9960A/cm2(6K,4.5T)和1110A/cm2(6K,7T),比未掺杂线材分别提高了14%和26%。TiB2掺杂引起的MgB2晶粒减小,晶界面积增加和晶粒连结性改善,是Jc提高的主要原因。在未掺杂MgB2线材中还发现了微裂纹、MgO晶须等不利于超导性能的特殊显微结构。

MgB_2颗粒超导体临界电流的温度特性研究

通过制备MgB2/MgO超导复合材料,获得了典型的MgB2弱连接颗粒超导体,并测量了该样品在不同温度下的I-V特性曲线。在I-V曲线中,我们发现:当电流超过临界电流时,电压随着电流先是缓慢的增长,在电流升到一定值时,电压有一个很陡的突变。我们对这一变化进行了研究,认为这是由于MgO杂质使MgB2的晶界效应增强所引起的。该样品的临界电流和温度的关系满足:jc(T)∝(1-T/Tc)1.3,利用三维Josephson结网络系统的渗流模型进行计算发现,当颗粒超导系统处于非均匀状态时,临界电流和温度满足关系式jc(T)∝(1-T/Tc)4/3,这一结果和我们的实验符合的非常好。

纳米SiC掺杂对微波合成MgB_2超导体显微结构与超导电性的影响

采用微波烧结工艺制备了纳米SiC粉末掺杂的MgB2-xSix/2Cx/2(x=0.00,0.03,0.05,0.10)超导块材。X粉末衍射分析表明,800℃时在流通高纯氩气条件下热处理20min,能形成MgB2主晶相。随着掺杂量的增加,MgB2的晶格参数a、c变小。超导电性的分析结果表明,随着纳米SiC掺杂量的增加,MgB2的临界温度由未掺杂时的38.5 K降低至掺杂量x=0.10时的34.5 K。T≤20 K时,MgB2的Jc(B)性能随纳米SiC掺杂量x的增加逐渐变好,高场时尤为明显。T≥25 K时,样品的Jc(B)性能随x的增大而逐步降低。这可能是由于纳米SiC掺杂引起的晶粒变小,作为磁通钉扎中心的晶界面积增加造成的。

二元金属化合物MgB_2的超导电性及其掺杂效应

简要介绍了MgB2超导体的同位素效应、ρ-T特性、S-T特性、双能隙,着重论述了元素掺杂对其超导电性的影响,指出其作为一种新型低成本高性能的超导材料具有广泛的应用前景。

连续工艺制备的MgB_2超导线的传输电流特性(英文)

美国高新技术研究所(HTR)采用连续装管成型(CTFF)粉末装管技术(PIT)制备了MgB2/Fe复合线。目前已制备出直径为1.2mm的先驱线(包Fe的Mg+B混合粉),长度达70m。在800℃～950℃处理3min～30min的短样品,传输临界电流密度(Jc)在4K/4T下达到(2～3)×104A/cm2,在4K/2T下达到4×104A/cm2,在4K自场下外推的Jc最少达到2×105A/cm2。用磁测量方法得到的Jc与外推得到的传输临界电流值差不多。

Al改性MgB_(2)材料与金属界面特性及其超导性能研究

针对MgB_(2)超导材料用于液氢液位传感器的临界转变温度与液氢液化温度差异大和原始粉末与金属护套界面反应导致测量控制难的问题,研究了降低MgB_(2)临界转变温度的改性技术,以及改性后粉末与金属护套Fe、Monel反应产物及退火温度对其超导转变宽度的影响。结果表明,当掺杂量x=0.15时,Mg_(1-x)Al_xB_(2)多晶样品的临界转变温度为30 K左右,满足液氢液位传感器使用环境。金属护套Fe、Monel与前驱体粉末Mg、Al之间都有不同程度的扩散界面发生,Fe金属护套样品扩散层厚度较小,大约为25μm,更适合于Al掺杂MgB2超导线材的制备护套材料。不同退火温度下的带金属护套的Fe、Monel改性MgB_(2)样品仍具有明显的超导转变,且超导转变温度满足液氢液位计使用环境。

基于超导的小型化磁粒子成像系统仿真构建

针对磁粒子成像技术尚停留在实验室鼠用设备阶段,传统线材线圈过大,无法在可接受的设备体量内达到临床人体检测所需磁场强度的问题,提出了一种基于超导技术构建高场强、小型化磁粒子成像设备的方法。采用高温超导MgB_(2)线圈替代传统铜线圈,构建磁粒子成像选择场与驱动场。结果表明,在达到相同磁通量的情况下,超导磁粒子成像系统可将两组功能区总质量降低为0.01 kg,设备体积缩小至7 L。在此基础上,采用超导线圈构建梯度磁场还能够获得更高的变化斜率,使零磁扫描区边缘更为清晰规则,移动过程中形态更为稳定,平均直径缩小近二分之一。

Half-integer Shapiro steps in MgB_(2) focused He ion beam Josephson junctions

Half-integer microwave induced steps(Shapiro steps)have been observed in many different Josephson junction systems,which have attracted a lot of attention because they signify the deviation of current phase relation(CPR)and uncover many unconventional physical properties.In this article,we first report the discovery of half-integer Shapiro steps in MgB_(2)focused He ion beam(He-FIB)Josephson junctions.The half-integer steps'dependence on microwave frequency,temperature,microwave power,and magnetic field is also analyzed.We find that the existence of half-integer steps can be controlled by the magnetic field periodically,which is similar to that of high temperature superconductor(HTS)grain boundary junctions,and the similarity of the microstructures between gain boundary junctions and He-FIB junctions is discussed.As a consequence,we mainly attribute the physical origin of half-integer steps in MgB_(2)He-FIB junctions to the model that a He-FIB junction is analogous to a parallel junctions'array.Our results show that He-FIB technology is a promising platform for researching CPR in junctions made of different superconductors.

Superconducting joints using reacted multifilament MgB_(2)wires:A technology toward cryogen-free MRI magnets

The development of superconducting joining technology for reacted magnesium diboride(MgB_(2))conductors remains a critical challenge for the advancement of cryogen-free MgB_(2)-based magnets for magnetic resonance imaging(MRI).Herein,the fabrication of superconducting joints using reacted carbon-doped multifilament MgB_(2)wires for MRI magnets is reported.To achieve successful superconducting joints,the powder-in-mold method was employed,which involved tuning the filament protection mechanism,the powder compaction pressure,and the heat treatment condition.The fabricated joints demonstrated clear superconducting-to-normal transitions in self-field,with effective magnetic field screening up to 0.5 T at 20 K.To evaluate the interface between one of the MgB_(2)filaments and the MgB_(2)bulk within the joint,serial sectioning was conducted for the first time in this type of superconducting joint.The serial sectioning revealed space formation at the interface,potentially caused by the volume shrinkage associated with the MgB_(2)formation or the combined effect of the volume shrinkage and the different thermal expansion coefficients of the MgB_(2)bulk,the filament,the mold,and the sealing material.These findings are expected to be pivotal in developing MgB_(2)superconducting joining technology for MRI magnet applications through interface engineering.

Mg/B多层膜退火法中不同制备条件对MgB_2超导薄膜性质的影响

用Mg/B多层膜退火的方法制备了一系列MgB2超导薄膜,研究了退火温度、退火时间和薄膜厚度对于MgB2薄膜性质的影响。厚度为250nm的Mg/B多层膜经400℃低温退火后已经生成超导相,此厚度薄膜750℃下退火20—30min实现最佳超导转变温度(Tc)。前驱膜分层厚度相同时,随着薄膜厚度减小MgB2薄膜Tc明显降低,而且较薄的膜Tc受退火温度影响更加明显。通过减小Mg/B多层膜分层厚度,制备的20nm厚MgB2超导薄膜在31K左右出现超导转变。

MgB_2高温超导材料的制备与应用

超导技术与材料是21世纪具有战略意义、具有巨大潜在商业应用前景的高新技术产业。随着新型高温超导材料MgB_2的不断发展以及其优越性能的体现,其在电力能源、信息通讯、生物医学、交通运输、航空航天以及国防安全等领域具有广阔的应用前景。本文通过文献研究法和综述分析法,介绍了高温超导的发展、原理及特性,重点阐述了MgB_2高温超导材料的制备方法和应用前景。

高温超导材料研究进展

超导技术是当下的高新技术之一,对于超导材料的研究一直处于现在进行时.临界温度下的超导材料表现出优异的零电阻特性,能量损耗相对于常规导电材料大幅降低,具有非常高的应用价值.以超导材料发展的时间线为线索,回顾高温超导材料的研究历程.在综合整理国内外研究论文的基础上详细阐述BSCCO、YBCO、铁基超导、MgB_(2)、有机超导体的发展历程、发展现状以及各自特性,并展望超导材料的发展前景.

Recent progress in MgB_(2)superconducting joint technology

Magnesium diboride(MgB_(2))magnets have the potential to be the next-generation liquid-helium-free magnet for magnetic resonance imaging(MRI)application due to their relatively high superconducting transition temperature,high current density and low raw material cost compared with current commercial niobium-titanium(Nb-Ti)magnets.A typical superconducting magnet includes several coils.To produce an ultra-stable magnetic field for imaging in MRI,a superconducting electromagnet operating in a persistent mode is crucial.Superconducting coils of the electromagnet in MRI are short-circuited to operate in the persistent mode by connecting coils with superconducting joints.Per-sistent joints have been demonstrated for in-situ and ex-situ wires of both mono-and multi-filamentary structures,made predominantly by PIT techniques similar to those used in wire production.To realise further engagement of MgB_(2)in MRI applications,enhancing the performance of MgB_(2)superconducting joints is essential.This literature review summarises research and development on MgB_(2)superconducting joining technology.

二维MgB_(2)材料嵌钠/钾性质的理论研究

开发具有良好导电性、超快离子扩散能力和大存储容量的负极材料对于可充电离子电池来说具有重要意义,但仍具有挑战性。利用第一性原理计算,探讨了二维MgB_(2)作为碱金属(Na和K)离子电池负极材料的潜力。结果表明,MgB_(2)具有良好的结构稳定性和电化学性能。Na和K离子可以稳定地吸附在二维MgB 2上,且扩散势垒较低,分别为0.302和0.172 eV,表明其在超快充放电过程中具有较高的性能。更重要的是,二维MgB_(2)作为负极材料应用于钠离子和钾离子电池的最大存储容量分别为1167和584 mA·h/g。结果证明了二维MgB_(2)可以作为一种很有前途的负极材料应用于钠离子和钾离子电池。

Effects of irradiation on superconducting properties of small-grained MgB_(2) thin films

We investigate the effect of ion irradiation on MgB_(2) thin films with small grains of approximately 122 nm and 140 nm.The flux pinning by grain boundaries is insignificant in the pristine MgB_(2) films due to good inter-grain connectivity,but is significantly improved after 120-keV Mn-ion irradiation.The scaling behavior of the flux pinning force density for the ion-irradiated MgB_(2) thin films with nanoscale grains demonstrates the predominance of pinning by grain boundaries,in contrast to the single-crystalline MgB_(2) films where normal point pinning was dominant after low-energy ion irradiation.These results suggest that irradiation-induced defects can accumulate near the grain boundaries in metallic MgB_(2) superconductors.

专利信息

专利名称:一种MgB_(2)超导电缆的制备方法,公布号:CN116598063A申请日:2023.05.19公开日:2023.08.15申请人:西北有色金属研究院本发明公开了一种MgB_(2)超导电缆的制备方法,该方法包括:一、将MgB_(2)超导电缆设计为多级缆;二、将MgB_(2)线材分线并与无氧铜股线复绕后绞缆得到一级缆,将一级缆分线后绞缆并重复直至得到多级缆;三、采用不锈钢带对多级缆的外层缠绕保护;四、采用耐高温玻璃丝带对多级缆的不锈钢保护层缠绕保护;五、成相热处理;六、除碳热处理得到MgB_(2)超导电缆。

硼膜制备工艺、微观结构及其在硼化镁超导约瑟夫森结中的应用

MgB_2材料具备临界转变温度较高、相干长度大、临界电流和临界磁场高等优点,被认为有替代Nb基超导材料的潜力.研究了不同温度下以化学气相沉积法制备的硼(B)薄膜的微观结构.实验结果表明:较低温度沉积的B先驱薄膜为无定形B膜,可以与Mg蒸气反应生成MgB_2超导薄膜;当沉积温度高于550?C时,所得硼薄膜为晶型薄膜;以晶型硼薄膜为先驱膜在镁蒸气中退火,不能生成硼化镁超导薄膜.利用晶型B膜的这一特点,成功制备了以晶型硼薄膜为介质层的硼化镁超导约瑟夫森结.