Vortex dynamics in the high-temperature superconductors YBa 2 Cu 3 O 7 and Bi 2 Sr 2 CaCu 2 O 8 + delta in low- and high-dissipative transport measurements

This thesis investigates phenomena of vortex dynamics in type II superconductors depending on the dimensionality of the flux-line system and the strength of the driving force. In the low dissipative regime of Bi_2Sr_2CaCu_2O_{8+delta} (BSCCO) the influence of oxygen stoichiometry on flux-line tension was examined. An entanglement crossover of the vortex system at low magnetic fields was identified and a comprehensive B-T phase diagram of solid and fluid phases derived.In YBa_2Cu_3O_7 (YBCO) extremely long (>100 mm) high-quality measurement bridges allowed to extend the electric-field window in transport measurements by up to three orders of magnitude. Complementing analyses of the data conclusively produced dynamic exponents of the glass transition z~9 considerably higher than theoretically predicted and previously reported. In high-dissipative measurements a voltage instability appearing in the current-voltage characteristics of type II superconductors was observed for the first time in BSCCO and shown to result from a Larkin-Ovchinnikov flux-flow vortex instability under the influence of quasi-particle heating. However, in an analogous investigation of YBCO the instability was found to appear only in the temperature and magnetic-field regime of the vortex-glass state. Rapid-pulse measurements fully confirmed this correlation of vortex glass and instability in YBCO and revealed a constant rise time (~µs).

Pinning-Effekte kolumnarer Schwerionenspuren in Kuprat-Supraleiter-Dünnschichten

In this work the flux line dynamics in High-Temperature Superconductor (HTSC) thin films in the presence of columnar defects was studied using electronic transport measurements. The columnar defects which are correlated pinning centers for vortices were generated by irradiation with swift heavy ions at the Gesellschaft für Schwerionenforschung (GSI) in Darmstadt. In the first part, the vortex dynamics is discussed within the framework of the Bose-glass model. This approach describes the continuous transition from a vortex liquid to a Bose-glass phase which is characterized by the localization of the flux lines at the columnar defects. The critical behavior of the characteristic length and time scales for temperatures in the vicinity of this phase transition were probed by scaling properties of experimentally obtained current-voltage characteristics. In contrast to the predicted universal properties of the critical behavior the scaling analysis shows a strong dependence of the dynamic critical exponent on the experimentally accessible electric field range. In addition, the predicted divergence of the activation energy in the limit of low current densities was experimentally not confirmed.The dynamic behavior of flux lines in spatially resolved irradiation geometries is reported in the second part. Weak pinning channels with widths between 10 µm and 100 µm were generated in a strong pinning environment with the use of metal masks and the GSI microprobe, respectively. Measurements of the anisotropic transport properties of these structures show a striking resemblance to the results in YBCO single crystals with unidirected twin boundaries which were interpreted as a guided vortex motion effect. The use of two additional test bridges allowed to determine in parallel the resistivities of the irradiated and unirradiated parts as well as the respective current-voltage characteristics. These measurements provided the input parameters for a numerical simulation of the potential distribution in the spatially resolved irradiation geometry. The results are interpreted within a model that describes the hydrodynamic interaction between a Bose-glass phase and a vortex liquid. The interface between weakly pinned flux lines in the unirradiated channels and strongly pinned vortices leads to a nonuniform vortex velocity profile and therefore a variation of the local electric field. The length scale of these interactions was estimated for the first time in measuring the local variation of the electric field profile in a Bose-glass contact.Finally, a method for the determination of the true temperature in HTSC thin films at high dissipation levels is described. In this regime of electronic transport the occurrence of a flux flow instability is accompanied by heating effects in the vortex system. The heat propagation properties of the film/substrate system are deduced from the time dependent voltage response to a short high current density pulse of rectangular shape. The influence of heavy ion irradiation on the heat resistance at the film/substrate interface is studied.

In-situ-Präparation von komplexen supraleitenden und ferroelektrischen Heterostrukturen mittels gepulster Laser-Deposition

In der vorliegenden Arbeit ist die Konstruktion und der Aufbau eines Systems zur gepulsten Laserablation von dünnen Schichten beschrieben. Die hohe Flexibilität der Anlage wird ermöglicht durch einen sechsfach-Targethalter und eine Heizerkonstruktion, die einfachen Substrateinbau, hohe Temperaturhomogenität und einen zugänglichen Temperaturbereich von bis zu 1000°C erlaubt. Durch eine komplexe Laser-Optik, die eine homogene Energiedichte auf dem Target sicherstellt, wird eine optimale Filmqualität erreicht.Durch die Entwicklung einer zweistufigen Prozeßführung für Y-stabilisiertes ZrO2 wird eine Wachstumsbasis hoher kristalliner Qualität für funktionale Oxidschichten auf Silizium zur Verfügung gestellt. Es zeigt sich, daß die dielektrischen Eigenschaften der YSZ Schicht stark vom Sauerstoffgehalt, der Grenzflächenmorphologie sowie der Dicke der ersten Schicht abhängig sind. Basierend auf dieser Schicht wurde BaZrO3 als zusätzliche Pufferschicht für den Hochtemperatursupraleiter (HTSL) YBa2Cu3O7 ? untersucht. Unter Verwendung von SrTiO3 Substraten konnte die dielektrische Konstante von BaZrO3 zu ? ? 65 bestimmt sowie das Dispersionsverhalten mittels modifizierter Debye-Gleichungen erklärt werden. Vergleichende Messungen auf einkristallinen SrTiO3 Substraten zeigen eine erhöhte Übergangstemperatur von 90.2 K und eine wesentliche Verbesserung der Oberflächenrauhigkeit des HTSL von 2 nm (rms) durch die Verwendung von BaZrO3 Schichten hoher Qualität. Eine nur wenige Monolagen dicke zusätzliche BaZrO3 Pufferschicht auf YSZ-gepufferten Silizium Substraten verhindert die Ausbildung von ?9° rotierten YBCO Körnern, die üblicherweise bei der direkten Deposition auf YSZ beobachtet werden. Resistive Messungen mit Übergangstemperaturen oberhalb 89 K sind vergleichbar zu Ergebnissen, die für CeO2/YSZ Pufferschichtkombinationen erreicht werden. Durch kontinuierliche Gitteranpassung wurde eine neue Schichtabfolge YBCO/CeO2/YSZ/BaZrO3 für die Erzeugung bi-epitaxialer Korngrenzen-Josephson Kontake gefunden und deren Epitaxiebeziehungen geklärt. Eine in-situ deponierte Schichtabfolge zeigt mit einer Übergangstemperatur von 91.7 K und einer Übergangsbreite von 0.15 K supraleitende Eigenschaften vergleichbar zu den besten bisher auf diesem Gebiet erreichten Ergebnissen. Voruntersuchungen zur Realisierung eines Josephsonkontaktes mit dieser Schichtabfolge zeigen jedoch, daß die erreichten Eigenschaften für die technologische Anwendung nicht ausreichend sind.Die Verwendung einer YSZ/CeO2 Pufferschichtkombination ermöglicht die Herstellung von c Achsen orientiertem ferroelektrischem SrBi2Ta2O9 auf Silizium. Im Gegensatz hierzu führt die direkte Deposition auf Silizium zu polykristallinem SrBi2Ta2O9 oder zur Ausbildung der Pyrochlor Phase, wenn nur YSZ als Pufferschicht verwendet wird. Obwohl die Polarisierung von SrBi2Ta2O9 in der ab-Ebene liegt, konnte in MFIS Strukturen ein Speicherfenster von maximal 0.87 V beobachtet werden, was eine Verbesserung um nahezu einen Faktor drei im Vergleich zu polykristallinem SrBi2Ta2O9 bedeutet. Messungen an ferroelektrischen Kondesatorstrukturen ergeben Hystereseschleifen mit einer remanenten Polarisierung von Pr = 6.5 µC/cm2 sowie einem Koerzitivfeld von Ec = 35 kV/cm. AFM Messungen im Piezo-Response Modus zeigen ferroelektrische Domänen, die durch Anlegen einer Gleichspannung reversibel umpolarisiert werden können. Im Nicht-Kontakt AFM Modus wurde die lokale Polarisierung der Schichten zu 3.4 µC/cm2 bestimmt. Weiterhin wurde eine alternative Pufferschichtkombination SrZrO3/YSZ zur Erzeugung von a-Achsen orientiertem SrBi2Ta2O9 untersucht. SrZrO3 zeigt a Achsen Orientierung in vier Wachstumsdomänen, die durch ein Model erklärt werden können. Die SrBi2Ta2O9 Schicht zeigt a Achsen sowie (116)-orientierte Körner mit derselben Domänenstruktur. Die dielektrische Konstanten von SrZrO3 und SrBi2Ta2O9 wurden zu ? ? 29 und ? ? 20 bestimmt. Die beobachteten Speicherfenster sind allerdings nicht ferroelektrischer Natur, sondern wahrscheinlich durch mobile Ionen und Ladungsfangstellen in den Pufferschichten verursacht. Die stark abgesenkte dielektrische Konstante von SrBi2Ta2O9 kann durch die im Vergleich zu polykristallinem verkleinerte Korngröße erklärt werden.

Vortex dynamics in superconductors in the presence of anisotropic pinning

Vortex dynamics in two different classes of superconductors with anisotropic unidirected pinning sites was experimentally investigated by magnetoresistivity measurements: YBCO−films with unidirected twins and Nb-films deposited on faceted $mathrm Al_2O_3$ substrate surfaces. For the interpretation of the experimental results a theoretical model based on the Fokker-Planck equation was used. It was proved by X-ray measurements that YBCO films prepared on (001) $mathrm NdGaO_3$ substrates exhibit only one twin orientation in contrast to YBCO films grown on (100) $mathrm SrTiO_$3 substrates. The magnetoresistivity measurements of the YBCO films with unidirected twin boundaries revealed the existence of two new magnetoresistivity components, which is a characteristic feature of a guided vortex motion: an odd longitudinal component with respect to the magnetic field sign reversal and an even transversal component. However, due to the small coherence length in YBCO and the higher density of point-like defects comparing to high-quality YBCO single crystals, the strength of the isotropic point pinning was comparable with the strength of the pinning produced by twins. This smeared out all effects caused by the pinning anisotropy. The behaviour of the odd longitudinal component was found to be independent of the transport current direction with respect to the twin planes. The magnetoresistivity measurements of faceted Nb films demonstrated the appearance of an odd longitudinal and even transversal component of the magnetoresistivity. The temperature and magnetic field dependences of all relevant magnetoresistivity components were measured. The angles between the average vortex velocity vector and the transport current direction calculated from the experimental data for the different transport current orientations with respect to the facet ridges showed that the vortices moved indeed along the facet ridges. An anomalous Hall effect, i.e. a sign change of the odd transversal magnetoresistivity, has been found in the temperature and magnetic field dependences of the Hall resisitivity of the samples. The theory developed by V.~A.~Shklovskij was used for the explanation of the experimental data. It shows very good agreement with the experiment. The temperature dependence of the even longitudinal magnetoresistivity component of the samples could be very well fitted within the theoretical approach, using for the isotropic and anisotropic pinning potential simple potential with a symmetric triangular potential wells whose depths were estimated from the experimental data.

Transport properties of YBa 2 Cu 3 O 7, PrBa 2 Cu 3 O 7-superlattices

The understanding of the coupling between superconducting YBa2Cu3O7 (YBCO) layers decoupled by non superconducting PrBa2Cu3O7 (PBCO) layers in c-axis oriented superlattices was the aim of this thesis. For this purpose two conceptually different kind of transport experiments have been performed. rnrnIn the first type of transport experiments the current is flowing parallel to the layers. Here the coupling is probed indirectly using magnetic vortex lines, which are penetrating the superlattice. Movement of the vortex segments in neighbouring YBCO layers is more or less coherent depending on the thickness of both the superconducting and non superconducting layers. This in-plane transport was measured either by sending an external current through bridges patterned in the superlattice or by an induced internal current. rnThe vortex-creep activation energy U was determined by analysis of the in-plane resistive transition in an external magnetic field B oriented along the c-axis. The activation energies for two series of superlattices were investigated. In one series the thickness of the YBCO layers was constant (nY=4 unit cells) and the number of the PBCO unit cells was varied, while in the other the number of PBCO layers was constant (nP=4) and nY varied. The correlation length of the vortex system was determined to be 80 nm along the c-axis direction. It was found that even a single PBCO unit cell in a superlattice effectively cuts the flux lines into shorter weakly coupled segments, and the coupling of the vortex systems in neighbouring layers is negligible already for a thickness of four unit cells of the PBCO layers. A characteristic variation of the activation energy for the two series of superlattices was found, where U0 is proportional to the YBCO thickness. A change in the variation of U0 with the current I in the specimen was observed, which can be explained in terms of a crossover in the vortex creep process, generated by the transport current. At low I values the dislocations mediated (plastic) vortex creep leads to thermally assisted flux-flow behaviour, whereas at high current the dc transport measurements are dominated by elastic (collective) creep.rnThe analysis of standard dc magnetization relaxation data obtained for a series superlattices revealed the occurrence of a crossover from elastic (collective) vortex creep at low temperature to plastic vortex creep at high T. The crossover is generated by the T dependent macroscopic currents induced in the sample. The existence of this creep crossover suggests that, compared with the well known Maley technique, the use of the normalized vortex creep activation energy is a better solution for the determination of vortex creep parameters.rnrnThe second type of transport experiments was to measure directly a possible Josephson coupling between superconducting CuO2 double planes in the superlattices by investigation of the transport properties perpendicular to the superconducting planes. Here three different experiments have been performed. The first one was to pattern mesa structures photolithographically as in previous works. The second used three-dimensional nanostructures cut by a focused ion beam. For the these two experiments insufficient patterning capabilities prevented an observation of the Josephson effect in the current voltage curves. rnA third experiment used a-axis and (110) oriented YBCO films, where in-plane patterning can in principle be sufficient to measure transport perpendicular to the superconducting planes. Therefore the deposition of films with this unusual growth orientation was optimized and investigated. The structural and microstructural evolution of c-axis to a-axis orientation was monitored using x-ray diffraction, scanning electron microscopy and magnetization measurements. Films with full a-axis alignment parallel to the substrate normal could be achieved on (100)SrTiO3. Due to the symmetry of the substrate the c-axis direction in-plane is twofold. Transferring the deposition conditions to films grown on (110)SrTiO3 allowed the growth of (110) oriented YBCO films with a unique in-plane c-axis orientation. While these films were of high quality by crystallographic and macroscopic visual inspection, electron microscopy revealed a coherent crack pattern on a nanoscale. Therefore the actual current path in the sample was not determined by the macroscopic patterning which prohibited investigations of the in-plane anisotropy in this case.rn