Electronic transport in the heavy fermion superconductors UPd 2 Al 3 and UNi 2 Al 3

This work addresses the electronical properties of the superconductors UPd2Al3 and UNi2Al3 on the basis of thin film experiments. These isotructural compounds are ideal candiates to study the interplay of magnetism and superconductivity due to the differences of their magnetically ordered states, as well as the experimental evidence for a magnetic pairing mechanism in UPd2Al3. Epitaxial thin film samples of UPd2Al3 and UNi2Al3 were prepared using UHV Molecular Beam Epitaxy (MBE). For UPd2Al3, the change of the growth direction from the intrinsic (001) to epitaxial (100) was predicted and sucessfully demonstrated using LaAlO3 substrates cut in (110) direction. With optimized deposition process parameters for UPd2Al3 (100) on LaAlO3 (110) superconducting samples with critical temperatures up to Tc = 1.75K were obtained. UPd2Al3-AlOx-Ag mesa junctions with superconducting base electrode were prepared and shown to be in the tunneling regime. However, no signatures of a superconducting density of states were observed in the tunneling spectra. The resistive superconducting transition was probed for a possible dependence on the current direction. In contrast to UNi2Al3, the existence of such feature was excluded in UPd2Al3 (100) thin films. The second focus of this work is the dependence of the resisitive transition in UNi2Al3 (100) thin films on the current direction. The experimental fact that the resisitive transition occurs at slightly higher temperatures for I║a than for I║c can be explained within a model of two weakly coupled superconducting bands. Evidence is presented for the key assumption of the two-band model, namely that transport in and out of the ab-plane is generated on different, weakly coupled parts of the Fermi surface. Main indications are the angle dependence of the superconducting transition and the dependence of the upper critical field Bc2 on current and field orientation. Additionally, several possible alternative explanations for the directional splitting of the transition are excluded in this work. An origin due to scattering on crystal defects or impurities is ruled out, likewise a relation to ohmic heating or vortex dynamics. The shift of the transition temperature as function of the current density was found to behave as predicted by the Ginzburg-Landau theory for critical current depairing, which plays a significant role in the two-band model. In conclusion, the directional splitting of the resisitive transition has to be regarded an intrinsic and unique property of UNi2Al3 up to now. Therefore, UNi2Al3 is proposed as a role model for weakly coupled multiband superconductivity. Magnetoresistance in the normalconducting state was measured for UPd2Al3 and UNi2Al3. For UNi2Al3, a negative contribution was observed close to the antiferromagnetic ordering temperature TN only for I║a, which can be associated to reduced spin-disorder scattering. In agreement with previous results it is concluded that the magnetic moments have to be attributed to the same part of the Fermi surface which generates transport in the ab-plane.

Resonant behaviour of the barrier of YBa2Cu3O7 grain boundary Josephson junctions fabricated on bicrystalline substrates with different geometries

We have analyzed a resonant behavior in the dielectric constant associated to the barrier of YBa2Cu3O7 (YBCO) grain boundary Josephson junctions (GBJJs) fabricated on a wide variety of bicrystalline substrates: 12° [0 0 1] tilt asymmetric, 24° [0 0 1] tilt asymmetric, 24° [0 0 1] tilt symmetric, 24° [1 0 0] tilt asymmetric, 45° [1 0 0] tilt asymmetric and 24° [0 0 1] tilt symmetric +45° [1 0 0] tilt asymmetric bicrystals. The resonance analysis allows us to estimate a more appropriate value of the relative dielectric constant, and so a more adequate value for the length L of the normal N region assuming a SNINS model for the barrier. In this work, the L dependence on the critical current density Jc has been investigated. This analysis makes possible a single representation for all the substrate geometries independently on around which axes the rotation is produced to generate the grain boundary. On the other hand, no clear evidences exist on the origin of the resonance. The resonance frequency is in the order of 1011 Hz, pointing to a phonon dynamic influence on the resonance mechanism. Besides, its position is affected by the oxygen content of the barrier: a shift at low frequencies is observed when the misorientation angle increases.

Magnetic susceptibility of the normal-superconducting transition in high-purity single-crystal α-uranium

We report complex ac magnetic susceptibility measurements of a superconducting transition in very high-quality single-crystal alpha-uranium using microfabricated coplanar magnetometers. We identify an onset of superconductivity at Tapproximate to0.7 K in both the real and imaginary components of the susceptibility which is confirmed by resistivity data. A superconducting volume fraction argument, based on a comparison with a calibration YBa2Cu3O7-delta sample, indicates that superconductivity in these samples may be filamentary. Our data also demonstrate the sensitivity of the coplanar micro-magnetometers, which are ideally suited to measurements in pulsed magnetic fields exceeding 100 T.

A nanometre-scale non-periodic structural variation in high temperature superconducting ceramics and the implications for properties

Non-periodic structural variation has been found in the high T-c cuprates, YBa2Cu3O7-x and Hg0.67Pb0.33Ba2Ca2Cu3O8+delta, by image analysis of high resolution transmission electron microscope (HRTEM) images. We use two methods for analysis of the HRTEM images. The first method is a means for measuring the bending of lattice fringes at twin planes. The second method is a low-pass filter technique which enhances information contained by diffuse-scattered electrons and reveals what appears to be an interference effect between domains of differing lattice parameter in the top and bottom of the thin foil. We believe that these methods of image analysis could be usefully applied to the many thousands of HRTEM images that have been collected by other workers in the high temperature superconductor field. This work provides direct structural evidence for phase separation in high T-c cuprates, and gives support to recent stripes models that have been proposed to explain various angle resolved photoelectron spectroscopy and nuclear magnetic resonance data. We believe that the structural variation is a response to an opening of an electronic solubility gap where holes are not uniformly distributed in the material but are confined to metallic stripes. Optimum doping may occur as a consequence of the diffuse boundaries between stripes which arise from spinodal decomposition. Theoretical ideas about the high T-c cuprates which treat the cuprates as homogeneous may need to be modified in order to take account of this type of structural variation.

Investigations of growth processes in Y-Ba-Cu-O materials by microstructural examination of quenched samples

Y-Ba-Cu-O samples with additions of Y2O3 and CeO2 were quenched during seeded isothermal melt processing and examined by optical microscopy and scanning electron microscopy. Large YBa2Cu3O7-y (Y123) particles in the starting powder were found to form a distinct type of melt during heating, which was unaffected by the Y2O3 or CeO2 additives. This type of melt later formed regions with a low concentration of Y2BaCuO5 (Y211) particles in the Y123 matrix. The maximum growth rate of Y123 that could be sustained in the sample was found to be lower in the melt formed from large Y123 particles, and this may lead to growth accidents and subgrains in some samples.

Mètodes de visualització i dinàmica de gasos relacionats amb l'escalat de cintes superconductores en planta prepilot

Ara ja fa un segle del descobriment de la superconductivitat. Aquest fenomen quàntic macroscòpic té aplicacions en el camp de la diagnosi mèdica per MRI (Magnetic Resonance Imaging), que permet obtenir imatges internes detallades del cos humà o en aplicacions científiques com el SQUID (Superconducting Quantum Interference Device), amb el que es poden mesurar camps magnètics molt dèbils, amb límits de detecció fins a 10-15 T. Però les aplicacions dels superconductors no es limiten ni molt menys a aquests camps ja que s‟estan fent grans esforços per poder processar cintes superconductores a gran escala per tal de poder aplicar aquest fenomen a cables de conducció elèctrica, motors, generadors, transformadors, etc. Amb això s‟aconseguiria un increment notable de l‟eficiència energètica amb la consegüent disminució de l‟emissió de gasos d‟efecte hivernacle. En aquest projecte, realitzat al grup de Superconductivitat i Nanoestructuració a Gran Escala de l„ICMAB, s‟han fet diversos muntatges experimentals per tal de poder observar i entendre millor el procés de piròlisi d‟una solució precursora de YBCO en forma de capes primes a sobre de diferents substrats. Aquesta etapa és determinant per obtenir en el procés de creixement una capa texturada i d‟ alta densitat de corrent crítica (Jc). Per això s‟ha fet ús d‟un sistema que permet realitzar la piròlisi de forma relativament ràpida mentre s‟enregistra en vídeo l‟evolució de la capa. En totes les mostres pirolitzades s‟ha estudiat la qualitat, textura i morfologia superficial. També s‟ha intentat veure de forma qualitativa el comportament dinàmic dels gasos a dins d‟una cavitat cilíndrica, que és la geometria utilitzada fins ara per créixer cintes superconductores. Finalment s‟han dissenyat diferents tipus de bufadors per tal d‟introduir els gasos de forma transversal i no longitudinal dins del forn tubular durant el tractament tèrmic, fet que dóna lloc a un increment de la superfície superconductora homogènia. El projecte es distribueix en diferents parts. Inicialment es fa una introducció als superconductors d‟alta temperatura així com els mètodes de fabricació actuals de les cintes superconductores. Seguidament s‟expliquen els objectius que pretenem assolir. En un apartat posterior descrivim les tècniques experimentals utilitzades. Seguidament detallem tots els resultats obtinguts junt amb les seves caracteritzacions. Finalment estudiem el impacte ambiental que ha tingut la realització d‟aquest projecte. Detallem el cost del mateix en un pressupost. En tres annexes ampliem alguns subapartats que per manca d‟espai en el text principal no hem pogut desenvolupar.

Nanostructuració d'òxids mitjançant mètodes de solució química avançats i nanolitografia tova

Un dels reptes tecnològics més importants del segle XXI és el desenvolupament i organització de materials funcionals a escala nanomètrica ja que permet modificar-ne les propietats fonamentals i generar-ne de noves. En el cas dels òxids complexos aquesta tecnologia ha generat grans perspectives en diferents àrees d’estudi perquè presenten propietats molt interessants com la magnetoresistència colossal, superconductivitat o multiferroicitat. En particular, en l’òxid complex superconductor YBa2Cu3O7 (YBCO) s’ha demostrat que la formació de capes superconductores sobre plantilles nanoestructurades o bé la formació de nanocompostos en una matriu superconductora permet millorar de manera espectacular les seves propietats (corrent crític). Aquests resultats introduiran canvis paradigmàtics en la tecnologia de l’energia elèctrica (cables, motors, generadors) i en totes aquelles aplicacions que requereixin camps magnètics intensos. Ara bé, cal aconseguir-ho mitjançant tècniques de baix cost i que permetin un fàcil escalat. Durant els 4 mesos que s’ha disfrutat de l’ajut BP s’han preparat amb èxit noves capes primes superconductores nanoestructurades mitjançant la introducció d’una fase secundària nanomètrica complexa, Ba2YTaO6 (BYTO), dins la matriu d’YBCO pel mètode de baix cost de deposició de solucions químiques. Aquesta nova composició ha donat lloc a un augment significatiu de les propietats superconductores comparat amb la fase tradicional d’YBCO i per tant tenen gran potencial per fabricar futures cintes superconductores.

Efecte dels grups substituents en la formació de nanopartícules de Fe3O4 per descomposició de complexos de Fe(III)

En aquest treball d’investigació, s’estudiaran nanopartícules magnètiques concretament nanopartícules de magnetita (Fe3O4) on a partir de diferents precursors i amb unes condicions determinades es poden variar la seva forma i la seva mida. Aquestes mides i formes diferents són molt útils a l’hora d’introduir-les dins d’una solució de precursor del material superconductor ceràmic YBa2Cu3O7-δ (YBCO) ja que es produeix un augment significatiu de la densitat de corrent crítica. El mètode sintètic utilitzat en aquests treball d’investigació, és l’anomenat descomposició tèrmica, que ens permet sintetitzar nanopartícules de magnetita amb el corresponent control de mida i de forma desitjats.

Reduced microwave losses of YBa2Cu3O7_thin films on electro-optic LiNbO3 crystals

We report on the growth of epitaxial YBa2Cu3O7 thin films on X-cut LiNbO3 single crystals. The use of double CeO2/YSZ buffer layers allows a single in-plane orientation of YBa2Cu3O7, and results in superior superconducting properties. In particular, surface resistance Rs values of 1.4 m¿ have been measured at 8 GHz and 65 K. The attainment of such low values of Rs constitutes a key step toward the incorporation of high Tc materials as electrodes in photonic and acoustic devices.

Reduced microwave losses of YBa2Cu3O7_thin films on electro-optic LiNbO3 crystals

We report on the growth of epitaxial YBa2Cu3O7 thin films on X-cut LiNbO3 single crystals. The use of double CeO2/YSZ buffer layers allows a single in-plane orientation of YBa2Cu3O7, and results in superior superconducting properties. In particular, surface resistance Rs values of 1.4 m¿ have been measured at 8 GHz and 65 K. The attainment of such low values of Rs constitutes a key step toward the incorporation of high Tc materials as electrodes in photonic and acoustic devices.

Anomalous profile of a self-reversed resonance line from Ba+ in a laser produced plasma from YBa2Cu307

A laser produced plasma from the multielement solid target YBa2Cu3O7 is generated using 1.06 μm, 9 ns pulses from a Q-switched Nd:YAG laser in air at atmospheric pressure. A time resolved analysis of the profile of the 4554.03 Å resonance line emission from Ba II at various laser power densities has been carried out. It has been found that the line has a profile which is strongly self-reversed. It is also observed that at laser power densities equal to or exceeding 1.6×1011 W cm−2, a third peak begins to develop at the centre of the self-reversed profile and this has been interpreted as due to the anisotropic resonance scattering (fluorescence). The number densities of singly ionized barium ions evaluated from the width of the resonance line as a function of time delay with respect to the beginning of the laser pulse give typical values of the order of 1019 cm−3. The higher ion concentrations existing at smaller time delays are seen to decrease rapidly. The Ba II ions in the ground state resonantly absorb the radiation and this absorption is maximum around 120 ns after the laser pulse.

Temperature Dependence of the Intergranular Critical Current Density in Uniaxially Pressed Bi(1.65)Pb(0.35)Sr(2)Ca(2)Cu(3)O(10+delta) Samples

We have studied the normal and superconducting transport properties of Bi(1.65)Pb(0.35)Sr(2)Ca(2)Cu(3)O(10+delta) (Bi-2223) ceramic samples. Four samples, from the same batch, were prepared by the solid-state reaction method and pressed uniaxially at different compacting pressures, ranging from 90 to 250 MPa before the last heat treatment. From the temperature dependence of the electrical resistivity, combined with current conduction models for cuprates, we were able to separate contributions arising from both the grain misalignment and microstructural defects. The behavior of the critical current density as a function of temperature at zero applied magnetic field, J (c) (T), was fitted to the relationship J (c) (T)ae(1-T/T (c) ) (n) , with na parts per thousand 2 in all samples. We have also investigated the behavior of the product J (c) rho (sr) , where rho (sr) is the specific resistance of the grain-boundary. The results were interpreted by considering the relation between these parameters and the grain-boundary angle, theta, with increasing the uniaxial compacting pressure. We have found that the above type of mechanical deformation improves the alignment of the grains. Consequently the samples exhibit an enhance in the intergranular properties, resulting in a decrease of the specific resistance of the grain-boundary and an increase in the critical current density.

Efeitos de ordenamento chiral em supercondutores e sistemas magnéticos desordenados

Este trabalho apresenta uma investigação experimental sobre as propriedades magnéticas e de transporte elétrico de sistemas caracterizados por desordem e frustração. Tais sistemas são amostras granulares do supercondutor de alta temperatura crítica YBa2Cu3O7-δ e amostras do tipo vidro-de-spin e reentrantes das ligas magnéticas diluídas AuMn 8at% e AuFe xat% (x = 8, 12, 15, 18 e 21). No supercondutor granular foram estudados os efeitos de flutuações termodinâmicas na magnetocondutividade nas proximidades da transição supercondutora e a linha de irreversibilidades magnéticas. A transição para o estado de resistência nula é um processo que ocorre em duas etapas. Inicialmente, a transição de pareamento estabiliza a supercondutividade no interior dos grãos. A transição de coerência ocorre em temperaturas inferiores e ativa ligações fracas entre os grãos através de um processo do tipo percolação. O regime que antecede a transição de coerência é caracterizado por flutuações na fase do parâmetro de ordem. A linha de irreversibilidades magnéticas, estudada a partir da magnetoresistência e magnetização DC, revela um comportamento do tipo Almeida-Thouless em baixos campos magnéticos aplicados, seguido de um crossover, em µ0H = 0.1 T, para um comportamento do tipo Gabay-Toulouse. A linha de irreversibilidades é interpretada como sendo uma manifestação experimental de uma transição de vidro chiral. As ligas magnéticas diluídas foram estudadas através do efeito Hall extraordinário. Os resultados mostram claramente que dois termos de sinais contrários contribuem para este efeito nestes sistemas. Em particular, é observada uma anomalia no coeficiente de Hall extraordinário em temperaturas próximas à temperatura de ordenamento dos vidros-de-spin e de “canting” dos reentrantes que não é prevista por nenhuma teoria convencional de efeito Hall. A interpretação dos resultados é feita em termos do modelo de vidro chiral, mostrando a importância de uma contribuição de origem puramente chiral. Esta é a primeira vez que a chiralidade, uma propriedade intrínseca de sistemas desordenados e frustrados, é observada experimentalmente de modo direto.