Possible anomalous Doppler shift effect in superconductor
  Sr$_{2}$RuO$_{4}$

Agterberg D. F.; Arfi B.; Aubin H.; Barash Y. S.; Bonalde I.; Duffy J. A.; Fogelström M.; Hasegawa Y.; Ishida K.; Izawa K.; Izawa K.; Kuroki K.; Luke G. M.; Lupien C.; Maeno Y.; Maki K.; Miyake K.; Nishizaki S.; Nomura T.; Rice T. M.; Tanaka Y.; Tanatar M. A.; Tanuma Y.; Tewordt L.; Vekhter I.; Won H.; Yu F.; Zhitomirsky M. E.

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Possible anomalous Doppler shift effect in superconductor Sr $_{2}$ RuO $_{4}$

Authors: Agterberg D. F.
Arfi B.
Aubin H.
Barash Y. S.
Bonalde I.
Duffy J. A.
Fogelström M.
Hasegawa Y.
Ishida K.
Izawa K.
Izawa K.
Kuroki K.
Luke G. M.
Lupien C.
Maeno Y.
Maki K.
Miyake K.
Nishizaki S.
Nomura T.
Rice T. M.
Tanaka Y.
Tanatar M. A.
Tanuma Y.
Tewordt L.
Vekhter I.
Won H.
Yu F.
Zhitomirsky M. E.
Publication date: 4 January 2003
Publisher: 'Japan Society of Applied Physics'
Doi

Abstract

The effect of the Doppler shift is studied in a model for the

\alpha

-

\beta

bands of Sr

_2

RuO

_4

consisting of two hybridized 1D bands. Assuming a superconducting gap with nodes in the diagonal directions, we examine the oscillation of the surface density of states and the thermal conductivity under a rotating magnetic field. Upon varying the strength of the hybridization, the oscillation in these quantities is found to exhibit 2D to 1D crossover. In the crossover regime, which corresponds to the actual Sr

_2

RuO

_4

, the thermal conductivity exhibits a two-fold-symmetry oscillation, while the four-fold-symmetry component in the oscillation is barely detectable

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