低维材料中的电荷密度波

电荷密度波(charge density wave, CDW)是低维体系中存在的一种重要的物理现象,对CDW的研究有助于人们对低维系统中内禀电声子耦合和关联等相互作用有更深层次的认识,同时通过对材料中CDW的精准调控可以有效控制低维材料中磁性、超导等物理性质. CDW的研究最早起源于一维和准一维材料,本文首先简要介绍了CDW的一些基本性质和一维体系中CDW的一些研究.而近些年的研究发现CDW在很多二维材料中普遍存在.本文将着重介绍二维材料中CDW的最新研究进展.通过介绍二维材料中CDW的基本物性和产生机理,讨论CDW与Mott相、超导序和其他序(自旋密度波、配对密度波)之间的相互作用;探讨CDW中存在的多电子集体激发和手性性质;介绍掺杂、高压和激光脉冲等手段对CDW的调控;最后展望相关领域中可能的研究方向.     

低维超导材料中的量子振荡现象

低维超导材料由于具有尺度接近量子临界尺寸的优势,能够观测到显著的超导量子振荡效应,因此成为研究超导量子振荡效应的优异平台.由于这些量子振荡效应的周期、振幅、相位与磁通涡旋的量子化及运动方式、超导电子的配对机制、特定外部条件下超导体中的涨落和激发现象密切相关,并且它们还能直观地反映超导材料的几何结构对其超导物性的影响,因此对低维超导体中振荡效应的研究直接反映了超导体的本质规律,成为研究材料超导机制的一种重要手段,有着深邃的物理内涵和丰富的研究价值.本文将探讨三类能够在低维超导材料中观测到的典型超导量子振荡效应:利特尔-帕克斯效应、磁通涡旋运动导致的振荡效应和韦伯阻塞效应,从研究手段、理论预期、实验现象以及实验结果诸方面综述其中所揭示的深刻物理规律,并展望低维超导体的量子振荡效应在量子计算、器件物理和低温物理等领域的应用价值.     

二维超导材料

以石墨烯为代表的二维材料在二维半导体等领域具有重要的应用价值,因此得到了广泛的研究。二维超导体不仅丰富了二维材料的物理内容,而且具有潜在的应用价值,已成为备受关注的超导前沿领域之一。文章回顾了二维超导材料的研究历史,重点介绍了几种具有代表性的(准)二维超导材料及其存在的物理问题,并对二维超导材料的研究进行了展望。     

低维限域结构中水与物质的输运

低维限域结构中水与物质的输运研究,对于解决界面化学和流体力学中的遗留问题十分关键.近年来,研究人员采用分子动力学模拟和实验手段研究低维限域结构中水与物质的输运,并将其应用于物质输运、纳米限域化学反应、纳米材料制备等领域.本文从理论和实验的角度总结一维和二维纳米通道的水与物质输运,介绍了本研究组提出的"量子限域超流体"概念,并用于解释纳米通道中超快物质的输运现象;在此基础上概述了一维纳米通道中的分子动力学模拟和水浸润性,以及外部环境(如温度和电压)对限域结构中水浸润性的调控,同时阐述了低维限域结构中的液体输运;对二维纳米通道中的分子动力学模拟、液体浸润性以及液体输运进行了综述;讨论了纳米通道限域结构在物质输运、纳米限域化学反应和纳米材料制备等领域的应用;对低维限域结构中水与物质输运面临的挑战和前景进行了展望.     

准一维有机导体和有机超导体

有机化合物一般是绝缘体,室温电导率比典型的金属要小15-20数量级.要使分子晶体赋有导电性,必须设法使分子间距减小,让电子云有一定程度的交叠.这种尝试三十年前已引起科学家的兴趣.1973年发现了具有金属导电性能的准一维导体四硫富瓦烯与四氰基对二亚甲基苯酿(TTF·TCNQ)电荷转移复合物[1,2],从此开创了一个新研究领域——一维有机导体(或称为低维导体)。1980年D.Jero-me等又宣布,在 12 kbar压力和 0.9K低温下(TMTSF)2·PF6(结构见图7)具有超导现象[3],第一次发现了有机超导体.这可说是一个十分重要科学成就.从七十年代以来,有机导…     

一维准周期晶格的性质及应用

准周期晶格在冷原子领域被广泛研究,它使得人们可以在一维或者二维系统里研究扩展到安德森局域的转变. 2008年, Inguscio研究组在冷原子系统里制备了一维准周期晶格,并观测到了安德森局域化现象,这极大地推动了准周期系统的理论和实验研究.后来, Bloch研究组在制备的一维和二维准周期晶格中都观测到了多体局域的现象.最近,他们还在准周期晶格中成功观测到迁移率边以及存在迁移率边的系统的多体局域现象.这些冷原子实验推动了多体局域以及迁移率边等方向的研究.准周期晶格已经成为一个平台,它对很多物理现象的影响正在被广泛研究,并可以尝试在冷原子实验中观测到这种影响.本文结合作者的一些相关工作,对一维准周期晶格一些近期的研究进行了简要综述,介绍了一些相关的重要的冷原子实验,讨论了准周期晶格的一些重要性质,以及它对一些物理现象(比如拓扑态)的影响.     

高温超导体系中二维反常金属态的证实

正当超导体的厚度小于库珀对的相干长度时,库珀对在厚度方向的运动受限,可以看作是二维超导体。二维超导体系因其中的量子涨落或热力学涨落带来的诸多新奇现象,以及在低耗散或无耗散电子学方面的潜在应用价值,已成为超导领域的重要研究方向。2015年凝聚     

超导材料的混沌现象

讨论了一维稳态和发展型Ginzburg-Landau(缩写为G-L)超导方程组,从数学上论证了常稳态解的不稳定性及无穷维动力系统在行波解意义下的极限集之存在性.指出G-L超导方程组描述的超导材料具有作者意义下的无穷维动力系统的混沌现象,即超导材料在传导中可能出现奇特现象 关键词： 超导材料 G-L超导方程组 无穷维动力系统 混沌现象     

二硼化镁颗粒超导体的特性研究

我们通过B2O3和Mg的置换反应制备了MgB2复合超导体,对其物理特性的研究发现:在超导转变过程中dR/dT～T曲线出现了两个转变峰,而在I～V测量中也观测到了电压的两次转变,我们认为这起源于二硼化镁晶界效应的增强.并利用二维渗流模型对这些现象进行了讨论.     

Bi(110)薄膜在NbSe_2衬底上的扫描隧道显微镜研究

二维拓扑绝缘体因其特殊的能带结构带来的新奇物理性质,成为近年来凝聚态物理的研究热点.尤其是在引入超导电性之后,二维拓扑绝缘体中可能存在马约拉纳费米子(Majorana fermion),因此在量子计算方面具有重大应用前景.在Bi(111)薄膜被证实为二维拓扑绝缘体之后, Bi(110)薄膜引起了广泛关注,然而其拓扑性质还存在争议.本文利用分子束外延技术在室温低生长速率环境下成功制备出了高质量的单晶Bi(110)薄膜.通过扫描隧道显微镜测量发现,薄膜以约8个原子层厚度为分界,从双层生长转变为单层生长模式.结合隧道谱测量发现,在NbSe_2衬底上生长的Bi(110)薄膜因为近邻效应而具有明显的超导性质,但并未显示出拓扑边缘态的存在.此外,对薄膜中特殊的量子阱态现象也进行了讨论.     

Revealing the A_(1g)-type strain effect on superconductivity and nematicity in FeSe thin flake

The driving mechanism of nematicity and its twist with superconductivity in iron-based superconductors are still under debate.Recently,a dominant B_(1 g)-type strain effect on superconductivity is observed in underdoped iron-pnictides superconductors Ba(Fe_(1-x)Co_x)_2 As_2,suggesting a strong interplay between nematicity and superconductivity.Since the long-range spin order is absent in FeSe superconductor,whether a similar strain effect could be also observed or not is an interesting question.Here,by utilizing a flexible film as substrate,we successfully achieve a wide-range-strain tuning of FeSe thin flake,in which both the tensile and compressive strain could reach up to ～0.7%,and systematically study the strain effect on both superconducting and nematic transition(T_c and T_s) in the FeSe thin flake.Our results reveal a predominant A_(1 g)-type strain effect on T_c.Meanwhile,T_s exhibits a monotonic anti-correlation with T_c and the maximum T_c reaches to 12 K when T_s is strongly suppressed under the maximum compressive strain.Finally,in comparison with the results in the underdoped Ba(Fe_(1-x)Co_x)_2 As_2,the absence of B_(1 g)-type strain effect in FeSe further supports the role of stripe-type spin fluctuations on superconductivity.In addition,our work also supports that the orbital degree of freedom plays a key role to drive the nematic transition in FeSe.     

Microscopic measurements in La-NQR of the ternary carbide superconductor LaNiC2

¹³⁹La-NQR measurements have been carried out in the ternary carbide superconductor LaNiC₂. The nuclear quadrupole frequency and the asymmetry parameter of ¹³⁹La in LaNiC₂ were estimated to be about 1.9 MHz and 0, respectively. In the normal state, the nuclear spin relaxation rate (1/T₁) in the ¹³⁹La NQR signal was proportional to temperature (T) in zero external field above the superconducting transition temperature (T_c) or in an external field larger than the superconducting critical field, which means the system is in the Fermi-liquid state. In the superconducting state, on the other hand, 1/T₁ decreases no more linearly with T, but decreases rapidly exponentially as exp (−Δ/k_BT) at low T with an appreciable enhancement just below T_c. The value of the superconducting energy gap, 2Δ, was estimated to be 3.34k_BT_c, compared with 3.52k_BT_c of the BCS-value. This result strongly suggests that the superconductivity in LaNiC₂ is of a conventional BCS type.     

SrTiO_3(001)衬底上单层FeSe超导薄膜的分子束外延生长

在以前工作的基础上,进一步研究了SrTiO3(001)(STO)衬底上单层FeSe超导薄膜的分子束外延生长.首先,通过去离子水刻蚀、盐酸溶液腐蚀和纯氧气氛中退火等步骤,获得台阶有序、具有单一TiO2终止的原子级平整表面的STO衬底,这是前提条件.这个过程中酸的选择和退火过程中氧的流量是最为关键的因素.其次,在FeSe薄膜的分子束外延生长中,选择适当的Fe源和Se源束流以及衬底温度是关键因素.如选择适当,生长模式为step-?ow生长,这时得到的FeSe薄膜将是原子级平整的.最后一步为退火,这个过程会增强FeSe薄膜结晶性以及它与SrTiO3衬底间的结合强度.     

MgB2超导膜的厚度与其Jc(5K,0T)的关系

通过混合物理化学气相沉积法 (hybrid physical-chemical vapor deposition, HPCVD), 在(000l) SiC 衬底上制得一系列从10 nm到8 μm的MgB₂超导膜样品, 并对它们的形貌、超导转变温度T_c 和临界电流密度J_c与膜厚度的关系进行了研究. 观察到T_c随膜厚度增加上升到最大值后, 尽管膜继续增厚, 但T_c值保持近乎平稳, 而J_c则先随膜厚度增加上升到最高值后, 继而则随膜的厚度的增加而下降. MgB₂膜的T_c(0)和T_c(onset)值与膜厚的关系基本一致, T_c(0)在膜厚为230 nm处达到最大值T_c(0)=41.4 K, 而J_c(5K,0T)在膜厚为100 nm时达到最大值, J_c (5 K, 0 T)=2.3×10⁸A·cm^-2, 这也说明了我们能用HPCVD方法制备出高质量干净MgB₂超导膜. 本文研究的超导膜厚度变化跨度非常大, 从10 nm级的超薄膜到100 nm级的薄膜, 再到几微米的厚膜, 如此T_c和J_c对膜厚度变化的依赖就有了较完整、成体系的研究. 并且本文的工作对MgB₂超导薄膜制备的厚度选取具有实际应用意义. 关键词： 2超导膜')" href="#">MgB₂超导膜 混合物理化学气相沉积法 厚度 临界电流密度     

Suppression of superconductivity in zinc nanowires by bulk superconductors

Transport measurements were made on a system consisting of a zinc nanowire array sandwiched between two bulk superconducting electrodes (Sn or In). It was found that the superconductivity of Zn nanowires of 40 nm diameter is suppressed either completely or partially by the superconducting electrodes. When the electrodes are driven into their normal state by a magnetic field, the nanowires switch back to their superconducting state. This phenomenon is significantly weakened when one of the two superconducting electrodes is replaced by a normal metal. The phenomenon is not seen in wires with diameters equal to or thicker than 70 nm.     

Structurally tuned superconductivity in heavy-fermion CeMIn5 (M=Co, Ir, Rh)

We discuss systematic trends in the high-temperature physical properties of the heavy Fermion superconductors (HFS) CeCoIn₅ (T_c=2.3 K, γ=300 mJ/molK²), CeIrIn₅ (T_c=0.4 K, γ=750 mJ/molK²), and CeRhIn₅ (P_c=16 kbar, T_c=2.1 K, γ=400 mJ/molK²) in terms of crystalline-electrical-field effects(CEF). We suggest the possibility that the interplay between the symmetry of the CEF ground-state (or low-T CEF scheme of levels) and the f–s hybridization could generate spin fluctuations relevant to the superconducting pairing mechanism in these materials. This hypothesis may provide insight into the fact that some crystal structures appear to favor superconductivity. Further, CeMIn₅ (M=Co, Ir, Rh) appear to be structural relatives of the cubic heavy Fermion superconductor CeIn₃, but with much higher T_c's. We argue that structural layering inherent in the tetragonal CeMIn₅ crystal structure determines the magnetic and electronic anisotropy responsible for the enhanced T_c's. We also describe similarities and differences between these compounds and the high-T_c cuprates.     

Coexistence of superconductivity and antiferromagentic order in Er2O2Bi with anti-ThCr2Si2 structure

We investigated the coexistence of superconductivity and antiferromagnetic order in the compound Er₂O₂Bi with anti-ThCr₂Si₂-type structure through resistivity, magnetization, specific heat measurements and first-principle calculations. The superconducting transition temperature T_c of 1.23 K and antiferromagnetic transition temperature TN of 3 K are observed in the sample with the best nominal composition. The superconducting upper critical field H_c2(0) and electron-phonon coupling constant λ_e−ph in Er₂O₂Bi are similar to those in the previously reported non-magnetic superconductor Y2O2Bi with the same structure, indicating that the superconductivity in Er₂O₂Bi may have the same origin as in Y₂O₂Bi. The first-principle calculations of Er₂O₂Bi show that the Fermi surface is mainly composed of the Bi 6p orbitals both in the paramagnetic and antiferromagnetic state, implying minor effect of the 4f electrons on the Fermi surface. Besides, upon increasing the oxygen incorporation in Er₂O_xBi, Tc increases from 1 to 1.23 K and T_N decreases slightly from 3 K to 2.96 K, revealing that superconductivity and antiferromagnetic order may compete with each other. The Hall effect measurements indicate that hole-type carrier density indeed increases with increasing oxygen content, which may account for the variations of T_c and T_N with different oxygen content.     

SrTiO_3(001)衬底上多层FeSe薄膜的分子束外延生长

近几年,由于用分子束外延法在SrTiO_3衬底表面制备的单层FeSe具有很高的超导转变温度而引发了极大的研究热潮,随之而来的是对多层FeSe薄膜日益增长的研究兴趣.但目前还没有对成功生长高质量多层FeSe薄膜的详细报道.本文利用高能电子衍射仪(RHEED)实时监控在不同生长条件下制备的多层FeSe薄膜,发现在FeSe薄膜的生长初期,RHEED图像的强度演化基本符合台阶密度模型的描述特征,即台阶密度ρ正相关于衍射条纹强度.FeSe(02)衍射条纹的强度在第一生长周期内呈现稳定而明显的峰型振荡,而且不受高能电子掠射角的影响,最适合用来标定FeSe薄膜的厚度.结合扫描隧道显微镜对FeSe薄膜质量的原位观察,确定了制备多层FeSe薄膜的最佳生长条件,为FeSe薄膜的物性研究提供了重要的材料基础.     

Thermal transport in the oxygenated magnetic superconductor, Eu1.5Ce0.5RuSr2Cu2O10+δ

The thermal conductivity and thermopower are reported for a hole doped Eu_1.5Ce_0.5RuSr₂Cu₂O_10+δ sample that has been annealed at 1100 K under an oxygen pressure of 54 atm. At T_c=45 K superconductivity and weak ferromagnetism coexist (T_m=180 K). Weak features in the thermopower, S(T), and thermal conductivity, κ(T), are observed both at T_m and at T^*=140 K. The thermopower begins to decrease sharply toward zero at T_c, and there is an extremely sharp increase of about 30% in the thermal conductivity at T_c. This “first order” transition may be related to the sudden appearance of a spontaneous vortex phase at T_c. A small shoulder is observed in κ(T) in the temperature range T=5–13 K.     

Electronic structure and nematic phase transition in superconducting multiple-layer FeSe films grown by pulsed laser deposition method

We report comprehensive angle-resolved photoemission investigations on the electronic structure of single crystal multiple-layer FeSe films grown on CaF_2 substrate by pulsed laser deposition(PLD) method. Measurements on FeSe/CaF_2 samples with different superconducting transition temperatures T_c of 4 K, 9 K, and 14 K reveal electronic difference in their Fermi surface and band structure. Indication of the nematic phase transition is observed from temperature-dependent measurements of these samples; the nematic transition temperature is 140-160 K, much higher than ~90 K for the bulk FeSe. Potassium deposition is applied onto the surface of these samples; the nematic phase is suppressed by potassium deposition which introduces electrons to these FeSe films and causes a pronounced electronic structure change. We compared and discussed the electronic structure and superconductivity of the FeSe/CaF_2 films by PLD method with the FeSe/SrTiO_3 films by molecular beam epitaxy(MBE) method and bulk FeSe. The PLD-grown multilayer FeSe/CaF_2 is more hole-doped than that in MBE-grown multiple-layer FeSe films. Our results on FeSe/CaF_2 films by PLD method establish a link between bulk FeSe single crystal and FeSe/SrTiO_3 films by MBE method, and provide important information to understand superconductivity in FeSe-related systems.