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Strongly correlated Fermi systemsa n...

Amusia, Miron.

Strongly correlated Fermi systemsa new state of matter /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Strongly correlated Fermi systemsby Miron Amusia, Vasily Shaginyan.
Reminder of title:	a new state of matter /
Author:	Amusia, Miron.
other author:	Shaginyan, Vasily.
Published:	Cham :Springer International Publishing :2020.
Description:	xxi, 380 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	Fermions.
Online resource:	https://doi.org/10.1007/978-3-030-50359-8
ISBN:	9783030503598$q(electronic bk.)

Strongly correlated Fermi systemsa new state of matter /
Amusia, Miron.

Strongly correlated Fermi systemsa new state of matter /[electronic resource] :by Miron Amusia, Vasily Shaginyan. - Cham :Springer International Publishing :2020. - xxi, 380 p. :ill., digital ;24 cm. - Springer tracts in modern physics,v.2830081-3869 ;. - Springer tracts in modern physics ;168..

This book focuses on the topological fermion condensation quantum phase transition (FCQPT), a phenomenon that reveals the complex behavior of all strongly correlated Fermi systems, such as heavy fermion metals, quantum spin liquids, quasicrystals, and two-dimensional systems, considering these as a new state of matter. The book combines theoretical evaluations with arguments based on experimental grounds demonstrating that the entirety of very different strongly correlated Fermi systems demonstrates a universal behavior induced by FCQPT. In contrast to the conventional quantum phase transition, whose physics in the quantum critical region are dominated by thermal or quantum fluctuations and characterized by the absence of quasiparticles, the physics of a Fermi system near FCQPT are controlled by a system of quasiparticles resembling the Landau quasiparticles. The book discusses the modification of strongly correlated systems under the action of FCQPT, representing the "missing" instability, which paves the way for developing an entirely new approach to condensed matter theory; and presents this physics as a new method for studying many-body objects. Based on the authors' own theoretical investigations, as well as salient theoretical and experimental studies conducted by others, the book is well suited for both students and researchers in the field of condensed matter physics.

ISBN: 9783030503598$q(electronic bk.)

Standard No.: 10.1007/978-3-030-50359-8doiSubjects--Topical Terms:

219661
Fermions.

LC Class. No.: QC793.5.F42 / A487 2020

Dewey Class. No.: 539.721

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520 $a This book focuses on the topological fermion condensation quantum phase transition (FCQPT), a phenomenon that reveals the complex behavior of all strongly correlated Fermi systems, such as heavy fermion metals, quantum spin liquids, quasicrystals, and two-dimensional systems, considering these as a new state of matter. The book combines theoretical evaluations with arguments based on experimental grounds demonstrating that the entirety of very different strongly correlated Fermi systems demonstrates a universal behavior induced by FCQPT. In contrast to the conventional quantum phase transition, whose physics in the quantum critical region are dominated by thermal or quantum fluctuations and characterized by the absence of quasiparticles, the physics of a Fermi system near FCQPT are controlled by a system of quasiparticles resembling the Landau quasiparticles. The book discusses the modification of strongly correlated systems under the action of FCQPT, representing the "missing" instability, which paves the way for developing an entirely new approach to condensed matter theory; and presents this physics as a new method for studying many-body objects. Based on the authors' own theoretical investigations, as well as salient theoretical and experimental studies conducted by others, the book is well suited for both students and researchers in the field of condensed matter physics.
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