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Paper detail

Ultrafast transient response and electron-phonon coupling in the iron-pnictide superconductor Ba(Fe(1-x)Co(x))2As2

The transient response of Ba(Fe(1-x)Co(x))2As2, x=0.08 was studied by pump-probe optical reflectivity. After ultrafast photoexcitation, hot electrons were found to relax with two different characteristic times, indicating the presence of two distinct decay channels: a faster one, of less than 1 ps in the considered pump fluence range, and a slower one, corresponding to lattice thermalization and lasting ~6 ps. Our analysis indicates that the fast relaxation should be attributed to preferential scattering of the electrons with only a subset of the lattice vibration modes, with a second moment of the Eliashberg function lambda(omega^2)~64 meV^2. The simultaneous excitation of a strong fully symmetric A(1g) optical phonon corroborates this conclusion and makes it possible to deduce the value of lambda~0.12. This small value for the electron-phonon coupling confirms that a phonon mediated process cannot be the only mechanism leading to the formation of superconducting pairs in this family of pnictides.

preprint2010arXivOpen access
B. MansartD. BoschettoA. SavoiaF. Rullier-AlbenqueF. BouquetE. PapalazarouA. ForgetD. ColsonA. RousseM. Marsi
cond-mat.supr-con
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B. MansartD. BoschettoA. SavoiaF. Rullier-AlbenqueF. BouquetE. PapalazarouA. ForgetD. ColsonA. RousseM. Marsi

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