Molybdenum and tungsten complexes for moleular electronics

Shonfield, Peter K. A.

January 1998

No description available.

546

Molecular waves; Spin polarisation

Magneto-optical investigations of two-dimensional electron systems in GaAs-Al←xGa←1←-←xAs single heterojunctions

Kerridge, Gregg Charles

January 1999

No description available.

530.41

Spin polarization control through resonant states in an Fe/GaAs Schottky barrier

Honda, S., Itoh, H., Inoue, J., Kurebayashi, H., Trypiniotis, T., Barnes, C. H. W., Hirohata, A., Bland, J. A. C.

12 1900

No description available.

electron spin polarisation

gallium arsenide

III-V semiconductors

iron

Schottky barriers

tunnelling

Spin-orbit interaction in quantum dots and quantum wires of correlated electrons - A way to spintronics? / Spin-Bahn-Wechselwirkung in Quantenpunkten und Quantendrähten korrelierter Elektronen - Ein Weg Richtung Spintronik?

Birkholz, Jens Eiko

06 October 2008

No description available.

530 Physik

Mathematics and Computer Science

Spin-Bahn-Wechselwirkung

Spin-Polarisation

linearer Leitwert

Coulomb-Wechselwirkung

Quantenpunkt

Quantendraht

funktionale Renormierungsgruppe

spin-orbit interaction

spin polarization

linear conductance

Coulomb interaction

quantum wire

quantum dot

functional renormalization group

RV

A spin- and angle-resolved photoemission study of coupled spin-orbital textures driven by global and local inversion symmetry breaking

Bawden, Lewis

January 2017

The effect of spin-orbit coupling had once been thought to be a minor perturbation to the low energy band structure that could be ignored. Instead, a surge in recent theoretical and experimental efforts have shown spin-orbit interactions to have significant consequences. The main objective of this thesis is to investigate the role of the orbital sector and crystal symmetries in governing the spin texture in materials that have strong spin- orbit interactions. This can be accessed through a combination of spin- and angle-resolved photoemission spectroscopy (ARPES and spin-ARPES), both of which are powerful techniques for probing the one-electron band structure plus interactions, and supported by density functional theory calculations (DFT). We focus first on a globally inversion asymmetric material, the layered semiconductor BiTeI, which hosts a giant spin-splitting of its bulk bands. We show that these spin-split bands develop a previously undiscovered, momentum-space ordering of the atomic orbitals. We demonstrate this orbital texture to be atomic element specific by exploiting resonant enhancements in ARPES. These orbital textures drive a hierarchy of spin textures that are then tied to the constituent atomic layers. This opens routes to controlling the spin-splitting through manipulation of the atomic orbitals. This is contrasted against a material where inversion symmetry is globally upheld but locally broken within each monolayer of a two layer unit cell. Through our ARPES and spin-ARPES measurements of 2H-NbSe2, we discover the first experimental evidence for a strong out-of-plane spin polarisation that persists up to the Fermi surface in this globally inversion sym- metric material. This is found to be intrinsically linked to the orbital character and dimensionality of the underlying bands. So far, previous theories underpinning this (and related) materials' collective phases assume a spin- degenerate Fermi sea. We therefore expect this spin-polarisation to play a role in determining the underlying mechanism for the charge density wave phase and superconductivity. Through these studies, this thesis then develops the importance of global versus local inversion symmetry breaking and uncovers how this is intricately tied to the underlying atomic orbital configuration.

Elemental resolved magnetism of Gadoliniumnitride layers and GdN/Fe multilayers / Elementspezifischer Magnetismus von Gadoliniumnitrid und GdN/Fe Multilagen

Leuenberger, Frank

08 July 2004

No description available.

530 Physik

Mathematics and Computer Science

Halbleiter

Magnetismus

Spektroskopie

Röntgenabsorption

Multilagen

Spinpolarisation

XMCD

Semiconductors

Magnetism

Spectroscopy

X-ray absorption

Multilayers

Spin polarisation

XMCD

33.75

33.68

33.72

RVQ 460: Elektrische