Electronic Order with Staggered Kondo and Crystalline Electric Field
  Singlets

Aoki Y.; Chaikin P. M.; Doniach S.; Fazekas P.; Georges A.; Harima H.; Hattori K.; Hirsch J. E.; Hoshino S.; Hoshino S.; Iwasa K.; Iwasa K.; Kikuchi J.; Kiss A.; Koga M.; Kuramoto Y.; Lacroix C.; Otsuki J.; Otsuki J.; Otsuki J.; Otsuki J.; Park J.-G.; Peters R.; Rubtsov A. N.; Sakai O.; Shiina R.; Shimizu Y.; Sigrist M.; Sugawara H.; Watanabe S.; Werner P.; Yotsuhashi S.

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Electronic Order with Staggered Kondo and Crystalline Electric Field Singlets

Authors: Aoki Y.
Chaikin P. M.
Doniach S.
Fazekas P.
Georges A.
Harima H.
Hattori K.
Hirsch J. E.
Hoshino S.
Hoshino S.
Iwasa K.
Iwasa K.
Kikuchi J.
Kiss A.
Koga M.
Kuramoto Y.
Lacroix C.
Otsuki J.
Otsuki J.
Otsuki J.
Otsuki J.
Park J.-G.
Peters R.
Rubtsov A. N.
Sakai O.
Shiina R.
Shimizu Y.
Sigrist M.
Sugawara H.
Watanabe S.
Werner P.
Yotsuhashi S.
Publication date: 13 April 2010
Publisher: 'Japan Society of Applied Physics'
Doi

Abstract

Novel electronic order is found theoretically for a system where even number of localized electrons per site are coupled with conduction electrons. For precise quantitative study, a variant of the Kondo lattice model is taken with crystalline electric field (CEF) singlet and triplet states for each site. Using the dynamical mean-field theory combined with the continuous-time quantum Monte Carlo method, a staggered order with alternating Kondo and CEF singlets is identified for a case with one conduction electron per site being distributed in two conduction bands each of which is quarter-filled. This electronic order accompanies a charge density wave (CDW) of conduction electrons that accumulate more on Kondo-singlet sites than on CEF-singlet sites. Possible relevance of the present order to the scalar order in PrFe

_4

P

_{12}

is discussed.Comment: 11 pages, 17 figure

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