Structure of neutron-scattering peaks in both s++-wave and s±-wave states of an iron pnictide superconductor
Source: Phys. Rev. B 81, 060504 (2010); doi:10.1103/PhysRevB.81.060504
Published 16 February 2010
*
Full Text: Access via Source Journal Abstract
Download Citation
Research Toolkit
We study the neutron-scattering spectrum in iron pnictides based on the random-phase approximation in the five-orbital model for fully gapped s-wave states with sign reversal (s±) and without sign reversal (s++). In the s++-wave state, we find that a prominent hump structure appears just above the spectral gap by taking account of the quasiparticle damping 
due to strong electron-electron correlation: as the superconductivity develops, the reduction in gives rise to the large overshoot in the spectrum above the gap. The obtained hump structure looks similar to the resonance peak in the s±-wave state, although the height and weight of the peak in the latter state is much larger. In the present study, experimentally observed broad spectral peak in iron pnictides is naturally reproduced by assuming the s++-wave state.
©2010 The American Physical Society
due to strong electron-electron correlation: as the superconductivity develops, the reduction in gives rise to the large overshoot in the spectrum above the gap. The obtained hump structure looks similar to the resonance peak in the s±-wave state, although the height and weight of the peak in the latter state is much larger. In the present study, experimentally observed broad spectral peak in iron pnictides is naturally reproduced by assuming the s++-wave state.
©2010 The American Physical Society
| History: | Received 28 December 2009; revised 28 January 2010; published 16 February 2010 |
| Permalink: |
http://link.aps.org/abstract/PRB/v81/e060504 |
ADVERTISEMENT
