Devil's staircase continuum in the chiral clock spin glass with competing ferromagnetic-antiferromagnetic and left-right chiral interactions

Author(s)

Çağlar, Tolga; Berker, A Nihat

Abstract

The chiral clock spin-glass model with q=5 states, with both competing ferromagnetic-antiferromagnetic and left-right chiral frustrations, is studied in d=3 spatial dimensions by renormalization-group theory. The global phase diagram is calculated in temperature, antiferromagnetic bond concentration p, random chirality strength, and right-chirality concentration c. The system has a ferromagnetic phase, a multitude of different chiral phases, a chiral spin-glass phase, and a critical (algebraically) ordered phase. The ferromagnetic and chiral phases accumulate at the disordered phase boundary and form a spectrum of devil's staircases, where different ordered phases characteristically intercede at all scales of phase-diagram space. Shallow and deep reentrances of the disordered phase, bordered by fragments of regular and temperature-inverted devil's staircases, are seen. The extremely rich phase diagrams are presented as continuously and qualitatively changing videos.

Date issued

2017-04

URI

http://hdl.handle.net/1721.1/109095

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Physical Review E

Publisher

American Physical Society

Citation

Çağlar, Tolga and Berker, A. Nihat. "Devil's staircase continuum in the chiral clock spin glass with competing ferromagnetic-antiferromagnetic and left-right chiral interactions." Physical Review E 95, 042125 (April 2017): 1-8. © 2017 American Physical Society

Version: Final published version

ISSN

2470-0045

2470-0053