Auckland and parts of the Waikato are now operating under Level 3 restrictions with Click & Collect services now available at the majority of our stores. All stores outside of Level 3 areas remain open for in-store customers. Online orders will be available for all customers with some delays due to courier backlogs and lockdown procedures.
Spin Glasses -

Spin Glasses

Criticality and Energy Landscapes

Hardback

$254.40

Or 4 payments of $63.60 with

delivery message Free delivery for orders over $49.99

Add to Favourites
Sourced from our Overseas Supplier
Delivered in 10 - 20 days
Available for Click and Collect
This thesis addresses the surprising features of zero-temperature statics and dynamics of several spin glass models, including correlations between soft spins that arise spontaneously during avalanches, and the discovery of localized states that involve the presence of two-level systems. It also presents the only detailed historiographical research on the spin glass theory. Despite the extreme simplicity of their definition, spin glasses display a wide variety of non-trivial behaviors that are not yet fully understood. In this thesis the author sheds light on some of these, focusing on both the search for phase transitions under perturbations of Hamiltonians and the zero-temperature properties and responses to external stimuli. After introducing spin glasses and useful concepts on phase transitions and numerics, the results of two massive Monte Carlo campaigns on three-dimensional systems are presented: The first of these examines the de Almeida-Thouless transition, and proposes a new finite-size scaling ansatz, which accelerates the convergence to the thermodynamic limit. The second reconstructs the phase diagram of the Heisenberg spin glass with random exchange anisotropy.

Product code: 9783319412306

ISBN 9783319412306
Dimensions (HxWxD in mm) H235xW155
Series Springer Theses
No. Of Pages 221
Publisher Springer International Publishing AG
Edition 1st ed. 2016
This thesis addresses the surprising features of zero-temperature statics and dynamics of several spin glass models, including correlations between soft spins that arise spontaneously during avalanches, and the discovery of localized states that involve the presence of two-level systems.