Crystal chemistry of calcium-doped and calcium-free lead(2) strontium(2) R copper(3) oxygen(8+delta) (R = rare earth): Synthesis, structure and physical properties.

Xue, Jiayu Simon. Greedan, J.E.

Unknown Date

Thesis (Ph.D.)--McMaster University (Canada), 1992. / Source: Dissertation Abstracts International, Volume: 54-08, Section: B, page: 4182. Adviser: J. E. Greedan.

Studies On High Tc YBa2Cu3O6+x : Stability, Silver Addition And Thin Films

Manjini, S

04 1900

No description available.

Yttrium - Superconductors

Thin Films

High Tc Superconductors

YBa2Cu3O6+x

Pulsed Laser Ablation

SrTi03

Oxide Superconductors

Thermoelectricity

Transport studies of the itinerant metamagnet Sr₃Ru₂O₇ near its quantum critical point

Bruin, Jan Adrianus Nathan

January 2012

Strongly correlated metals are known to give rise to a variety of exotic states. In particular, if a system is tuned towards a quantum critical point, new ordered phases may arise. Sr₃Ru₂O₇ is a quasi-two dimensional metal in which field-tuned quantum criticality has been observed. In very pure single crystals of this material, a phase with unusual transport properties forms in the vicinity of its quantum critical point. Upon the application of a small in-plane field, electrical resistivity becomes anisotropic, a phenomenon which has led to the naming of this phase as an `electron nematic'. The subject of this thesis is a study of the electrical transport in high purity crystals of Sr₃Ru₂O₇. We modified an adiabatic demagnetisation refrigerator to create the conditions by which the entire temperature-field phase diagram can be explored. In particular, this allowed us to access the crossover between the low-temperature Fermi liquid and the quantum critical region. We also installed a triple axis `vector magnet' with which the applied magnetic field vector can be continuously rotated within the anisotropic phase. We conclude that the low- and high-field Fermi liquid properties have a complex dependence on magnetic field and temperature, but that a simple multiple band model can account for some of these effects, and reconcile the measured specific heat, dHvA quasiparticle masses and transport co-efficients. At high temperatures, we observe similarities between the apparent resistive scattering rate at critical tuning and those observed in other quantum critical systems and in elemental metals. Finally, the anisotropic phase measurements confirm previous reports and demonstrate behaviour consistent with an Ising-nematic, with the anisotropy aligned along either of the principal crystal axes. Our observations are consistent with the presence of a large number of domains within the anisotropic phase, and conclude that scattering from domain walls is likely to contribute strongly to the large measured anisotropy.

553.4

Magnetothermal properties near quantum criticality in the itinerant metamagnet Sr₃Ru₂O₇

Rost, Andreas W.

January 2009

The search for novel quantum states is a fundamental theme in condensed matter physics. The almost boundless number of possible materials and complexity of the theory of electrons in solids make this both an experimentally and theoretically exciting and challenging research field. Particularly, the concept of quantum criticality resulted in a range of discoveries of novel quantum phases, which can become thermodynamically stable in the vicinity of a second order phase transition at zero temperature due to the existence of quantum critical fluctuations. One of the materials in which a novel quantum phase is believed to form close to a proposed quantum critical point is Sr₃Ru₂O₇. In this quasi-two-dimensional metal, the critical end point of a line of metamagnetic first order phase transitions can be suppressed towards zero temperature, theoretically leading to a quantum critical end point. Before reaching absolute zero, one experimentally observes the formation of an anomalous phase region, which has unusual ‘nematic-like’ transport properties. In this thesis magnetocaloric effect and specific heat measurements are used to systematically study the entropy of Sr₃Ru₂O₇ as a function of both magnetic field and temperature. It is shown that the boundaries of the anomalous phase region are consistent with true thermodynamic equilibrium phase transitions, separating the novel quantum phase from the surrounding ‘normal’ states. The anomalous phase is found to have a higher entropy than the low and high field states as well as a temperature dependence of the specific heat which deviates from standard Fermi liquid predictions. Furthermore, it is shown that the entropy in the surrounding ‘normal’ states increases significantly towards the metamagnetic region. In combination with data from other experiments it is concluded that these changes in entropy are most likely caused by many body effects related to the underlying quantum phase transition.

Topics in the theory of inhomogeneous media composite superconductors and dielectrics /

Kim, Kwangmoo,

January 2007

Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 166-181).

Studies On Superconucting, Metallic And Ferroelectric Oxide Thin Films And Their Heterostructures Grown By Pulsed Laser Deposition

Satyalakshmi, K M

05 1900

No description available.

Laser Deposition

High Temperature Superconductors

Ferroelectric Oxide Thin Films

Thin Films - Fabrication

Pulsed Laser Deposition (PLD)

Perovskite Related Metallic Oxides

Metallic Oxide Thin Films

Epitaxial Thin Films

Metallurgy