Orbital Order, Structural Transition and Superconductivity in Iron
  Pnictides

Adachi N.; Chu J.-H.; Kamihara Y.; Kamihara Y.; Kawabata A.; Kontani H.; Kubo K.; Kuroki K.; Mazin I. I.; McGuire M. A.; Okumura M.; Onari S.; Pratt D. K.; Sano K.; Sato M.; Takimoto T.; Yanagi Y.; Yanagi Y.; Yanagi Y.

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Orbital Order, Structural Transition and Superconductivity in Iron Pnictides

Authors: Adachi N.
Chu J.-H.
Kamihara Y.
Kamihara Y.
Kawabata A.
Kontani H.
Kubo K.
Kuroki K.
Mazin I. I.
McGuire M. A.
Okumura M.
Onari S.
Pratt D. K.
Sano K.
Sato M.
Takimoto T.
Yanagi Y.
Yanagi Y.
Yanagi Y.
Publication date: 20 December 2010
Publisher: 'Japan Society of Applied Physics'
Doi

Abstract

We investigate the 16-band d-p model for iron pnictide superconductors in the presence of the electron-phonon coupling g with the orthorhombic mode which is crucial for reproducing the recently observed ultrasonic softening. Within the RPA, we obtain the ferro-orbital order below TQ which induces the tetragonal-orthorhombic structural transition at Ts = TQ, together with the stripe-type antiferromagnetic order below TN. Near the phase transitions, the system shows the s++ wave superconductivity due to the orbital fluctuation for a large g case with TQ > TN, while the s+- wave due to the magnetic fluctuation for a small g case with TQ < TN. The former case is consistent with the phase diagram of doped iron pnictides with Ts > TN.Comment: 5 pages, 5 figures, minor changes, published in J. Phys. Soc. Jp

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