8 edition of **Effective models for low-dimensional strongly correlated systems** found in the catalog.

- 113 Want to read
- 14 Currently reading

Published
**2006**
by American Institute of Physics in Melville, N.Y
.

Written in English

- High temperature superconductors -- Congresses,
- High temperature superconductivity -- Congresses

**Edition Notes**

Other titles | Low-dimensional strongly correlated systems |

Statement | editors, G. G. Batrouni, and D. Poilblanc, |

Genre | Congresses. |

Series | AIP conference proceedings -- v. 816, AIP conference proceedings -- no. 816., AIP conference proceedings |

Contributions | Batrouni, G. George 1956-, Poilblanc, Didier. |

Classifications | |
---|---|

LC Classifications | QC611.98.H54 .E28 2005 |

The Physical Object | |

Pagination | viii, 302 p. : |

Number of Pages | 302 |

ID Numbers | |

Open Library | OL17879773M |

ISBN 10 | 0735403090 |

ISBN 10 | 9780735403093 |

LC Control Number | 2005939026 |

Jerzy Mizia, Grzegorz Górski, in Models of Itinerant Ordering in Crystals, SPECTRAL DENSITY APPROACH. The Hubbard model is the basic model used to describe strongly correlated systems. The H–F approximation of the Hubbard model yields simple results, but it overestimates the ordering and the results may be valid only for systems with a weak . Subjects: Disordered Systems and Neural Networks (-nn); Strongly Correlated Electrons (-el) [40] arXiv:cond-mat/ [ pdf, ps, other ] Title: Universal Reduction of Effective Coordination Number in the Quasi-One-Dimensional Ising Model.

16 Dynamical Mean-Field Approximation and Cluster Methods book. The aspect interesting here is that basically all of them are restricted to low-dimensional systems: For ED, calculations inD>2 are impossible due to the size of the Hilbert space, and in case of the DMRG the way the method is constructed restricts it basically to D=1. QMC in. Strongly correlated electron systems are at the forefront of condensed matter physics. Their theoretical description is a challenge that provides rich opportunities for creative research. The fundamental question is how the electrons are organized, and, in particular, whether there are principles that are universal among the various classes of.

Statement of research interests and main results. Alexander Finkel’stein. My research interests focus on the microscopic analysis of various systems where the electronic interactions play a crucial role. These include disordered and low-dimensional systems, superconductors and quantum magnets, as well as nanostructures with a spin-orbit. 35 pages, 7 figures, to be published in "Interacting Electrons in Low Dimensions", book series "Physics and Chemistry of Materials with Low-Dimensional Structures", Kluwer Academic Publishers () Subjects: Strongly Correlated Electrons (-el); Statistical Mechanics (-mech) Cite as: arXiv:cond-mat/ [-el]Cited by:

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Effective models for low-dimensional strongly correlated systems: Peyresq, France, September a small subsector of a global theory of strongly correlated systems, may give an insight for more important and general proble ms and give the reader a better vision of ‘the Universe as a great.

The readership for the book includes physicists and graduate students interested in highly correlated electron systems and superconductivity. Author index only. ([c] Book News, Inc., Portland, OR). Strongly Correlated Systems: Numerical Methods puzzling physics of a particular strongly correlated system.

The book is intended for advanced. I describe early work on strongly correlated electron systems (SCES) from the perspective of a theoretical physicist who, while a participant in their reductionist top-down beginnings, is now part of the paradigm change to a bottom-up ‘emergent’ approach with its focus on using phenomenology to find the organizing principles responsible for their emergent behavior.

The use of field-theoretic techniques and methods has witnessed an impressive growth in recent years. A wealth of new and important results have emerged in condensed-matter physics, mainly in connection with low-dimensional systems such as quantum Hall systems, quantum wires and quantum dots and spin chains and/or ladders.

The coverage includes strongly correlated electronic systems such as low-dimensional complex materials, ordered and disordered spin systems, and aspects of the physics of manganites and graphene, both in equilibrium and far from equilibrium.

Sample Chapter(s) Chapter 1: Correlation effects in one-dimensional systems ( KB) Contents. This book is especially addressed to young researchers in theoretical physics with a basic background in Field Theory and Condensed Matter Physics. The topics were chosen so as to offer the largest possible overlap between the two expertises, selecting a few key problems in Condensed Matter Theory which have been recently revisited within a field-theoretic s: 1.

Spinon and holon excitations in one-dimensional correlated electron systems, H. Matsueda, N. Bulut, T. Tohyama, and S. Maekawa, Effective Models for Low-Dimensional Strongly Correlated Systems, AIP Conference Proceedingseds, G.G. Batrouni and D. Poilblanc, 66 (). Magnetic correlations of the Hubbard model on frustrated lattices.

(physics) Pertaining to the transformation of a wave vector to another Brillouin zone as a result of a scattering process.Ghassan George Batrouni, Effective Models for Low-Dimensional Strongly Correlated Systems: They denoted this surface as the umklapp surface because of the importance of (n, n) umklapp scattering across this surface that occurs.

This is a slightly extended version of the "long" short talk given at the Lisbon school "Topology of strongly correlated systems" in the Fall of After a pedagogical introduction into the field of dissipative quantum mechanics and its methods I explain recent results concerning the problem of localization on attractive potentials in the.

This book is an attempt to breach the gap between mathematics of strongly correlated systems and its applications. In our work we have been inspired by the idea that the theory in (1 + l)-dimensions, though being but a small subsector of a global theory of strongly correlated systems, may give an insight for more important and general problems.

A.O. Gogolin, A.A. Nersesyan, A.M. Tsvelik, Bosonization and Strongly Correlated Systems (Cambridge University Press Effective Models for Low-Dimensional Strongly Correlated Systems (AIP, New York, ), p.

Google Scholar. and variational renormalization group methods for quantum spin systems. Adv. Phys. 57, () Google. S.R. Manmana, A. Muramatsu, R.M.

Noack, Time evolution of one-dimensional quantum many body systems, in Contribution for the Conference Proceedings of the ng Course in the Physics of Correlated Electron Systems and High-Tc Superconductors, Vietri sul Mare (Salerno, Italy), October AIP Conference Proceedings, vol.

p. () Cited by: 2. He is the author of over 70 papers, book chapters, and review articles. More about Robert Konik. Selected Publications. Non-perturbative methodologies for low-dimensional strongly-correlated systems: From non-abelian bosonization to truncated spectrum methods.

experimental relevance for strongly correlated electron systems. Due to the ongoing efforts to improve our understanding of one-dimensional correlated electron systems, there exists a large number of review articles and books covering various aspects of the general theory, as well as the Bethe ansatz and eld theoretical methods.

Author: Stig Lundqvist,Giuseppe Morandi,Yu Lu; Publisher: World Scientific ISBN: Category: Page: View: DOWNLOAD NOW» This volume contains a set of pedagogical reviews covering the most recent applications of low-dimensional quantum field theory in condensed matter physics, written by experts who have made major contributions to this.

The coverage includes strongly correlated electronic systems such as low-dimensional complex materials, ordered and disordered spin systems, and aspects of the physics of manganites and graphene, both in equilibrium and far from equilibrium.

The International Conference on Strongly Coupled Coulomb Systems was held on the campus of Boston College in Newton, Massachusetts, August 3–10, Although this conference was the first under a new name, it was the continuation of a series of international meetings on strongly coupled plasmas and other Coulomb systems that started with the NATO Summer Institute on.

Select Publications. By Professor Oleg P Sushkov.'Spiral spin order and transport anisotropy in underdoped cuprates', in Effective Models for Low-Dimensional Strongly Correlated Systems, Peyresq, France, pp.

-presented at Effective Models for Low-Dimensional Strongly Correlated Systems, Peyresq, France, 12 September. Bosonization and strongly correlated systems Alexander O.

Gogolin, Alexander A. Nersesyan, Alexei M. Tsvelik. Detailed account of important technique for researchers and graduate students working in condensed matter and theoretical physics.

You can write a book review and share your experiences. Other readers will always be interested in.and strongly correlated low-dimensional systems. Cover illustration: phase diagram of the disordered quantum XY model.

The arrows in-dicate the phase of the Cooper pairs (balls with springs). The yellow region represents a superconductor, the darker blue a glassy phase, and the lighter blue a phase-disordered Size: KB.The latter part of this thesis involves other projects on strongly correlated systems including computations for thermal conductivity and spin susceptibility for chiral p-wave models of strontium ruthenatea DMRG study of the t1-t2-J1-J2 model on a 4-leg ladder, and a phenomenological model of twisted bilayer graphene.