https://doi.org/10.1140/epjb/e2013-40206-1
Regular Article
Peierls-type structural phase transition in a crystal induced by magnetic breakdown
1 Department of Physics, Faculty of
Science, University of Zagreb, POB
331, 10001
Zagreb,
Croatia
2 Theoretische Physik III,
Ruhr-Universität Bochum, 44801
Bochum,
Germany
a
e-mail: dradic@phy.hr
Received:
13
March
2013
Received in final form:
17
April
2013
Published online:
17
June
2013
We predict a new type of phase transition in a quasi-two dimensional system of electrons at high magnetic fields, namely the stabilization of a density wave which transforms a two dimensional open Fermi surface into a periodic chain of large pockets with small distances between them. The quantum tunneling of electrons between the neighboring closed orbits enveloping these pockets transforms the electron spectrum into a set of extremely narrow energy bands and gaps which decreases the total electron energy, thus leading to a magnetic breakdown induced density wave (MBIDW) ground state. We show that this DW instability has some qualitatively different properties in comparison to analogous DW instabilities of Peierls type; e.g. the critical temperature of the MBIDW phase transition arises and disappears in a peculiar way with a change of the inverse magnetic field.
Key words: Solid State and Materials
© EDP Sciences, Società Italiana di Fisica and Springer-Verlag, 2013
