Random fields and spin glasses : a field theory approach

By: Cirano De DominicisContributor(s): Irene GiardinaMaterial type: TextTextPublication details: Cambridge, U.K.: Cambridge University Press, [c2010]Description: 213 pISBN: 9780521143554Subject(s): Physics and Astronomy | Condensed Matter PhysicsLOC classification: QA274.45
Contents:
1 - A brief introduction 2 - The Random Field Ising Model 3 - The dynamical approach 4 - The p = 2 spherical model 5 - Mean field spin glasses: one-step RSB 6 - The Sherrington–Kirkpatrick Model 7 - Mean field via TAP equations 8 - Spin glass above D = 6 9 - Propagators, mostly replicon 10 - Ward–Takahashi Identities and Goldstone modes 11 - Alternative approaches and conclusions
Summary: Disordered magnetic systems enjoy non-trivial properties which are different and richer than those observed in their pure, non-disordered counterparts. These properties dramatically affect the thermodynamic behaviour and require specific theoretical treatment. This book deals with the theory of magnetic systems in the presence of frozen disorder, in particular paradigmatic and well-known spin models such as the Random Field Ising Model and the Ising Spin Glass. This is a unified presentation using a field theory language which covers mean field theory, dynamics and perturbation expansion within the same theoretical framework. Particular emphasis is given to the connections between different approaches such as statics vs. dynamics, microscopic vs. phenomenological models. The book introduces some useful and little-known techniques in statistical mechanics and field theory. This book will be of great interest to graduate students and researchers in statistical physics and basic field theory. ---summary provided by publisher
Tags from this library: No tags from this library for this title. Log in to add tags.
    Average rating: 0.0 (0 votes)
Item type Current library Collection Shelving location Call number Status Notes Date due Barcode Item holds
Book Book ICTS
Mathematic Rack No 5 QA274.45 (Browse shelf (Opens below)) Available Billno:96020; Billdate: 2016-12-07 00527
Total holds: 0

1 - A brief introduction
2 - The Random Field Ising Model
3 - The dynamical approach
4 - The p = 2 spherical model
5 - Mean field spin glasses: one-step RSB
6 - The Sherrington–Kirkpatrick Model
7 - Mean field via TAP equations
8 - Spin glass above D = 6
9 - Propagators, mostly replicon
10 - Ward–Takahashi Identities and Goldstone modes
11 - Alternative approaches and conclusions

Disordered magnetic systems enjoy non-trivial properties which are different and richer than those observed in their pure, non-disordered counterparts. These properties dramatically affect the thermodynamic behaviour and require specific theoretical treatment. This book deals with the theory of magnetic systems in the presence of frozen disorder, in particular paradigmatic and well-known spin models such as the Random Field Ising Model and the Ising Spin Glass. This is a unified presentation using a field theory language which covers mean field theory, dynamics and perturbation expansion within the same theoretical framework. Particular emphasis is given to the connections between different approaches such as statics vs. dynamics, microscopic vs. phenomenological models. The book introduces some useful and little-known techniques in statistical mechanics and field theory. This book will be of great interest to graduate students and researchers in statistical physics and basic field theory. ---summary provided by publisher

There are no comments on this title.

to post a comment.