26 research outputs found
Does femtosecond time-resolved second-harmonic generation probe electron temperatures at surfaces?
Femtosecond pump-probe second-harmonic generation (SHG) and transient linear
reflectivity measurements were carried out on polycrystalline Cu, Ag and Au in
air to analyze whether the electron temperature affects Fresnel factors or
nonlinear susceptibilities, or both. Sensitivity to electron temperatures was
attained by using photon energies near the interband transition threshold. We
find that the nonlinear susceptibility carries the electron temperature
dependence in case of Ag and Au, while for Cu the dependence is in the Fresnel
factors. This contrasting behavior emphasizes that SHG is not a priori
sensitive to electron dynamics at surfaces or interfaces, notwithstanding its
cause.Comment: 11 pages, 4 figure
Comparison of s- and d-wave gap symmetry in nonequilibrium superconductivity
Recent application of ultrafast pump/probe optical techniques to
superconductors has renewed interest in nonequilibrium superconductivity and
the predictions that would be available for novel superconductors, such as the
high-Tc cuprates. We have reexamined two of the classical models which have
been used in the past to interpret nonequilibrium experiments with some
success: the mu* model of Owen and Scalapino and the T* model of Parker.
Predictions depend on pairing symmetry. For instance, the gap suppression due
to excess quasiparticle density n in the mu* model, varies as n^{3/2} in d-wave
as opposed to n for s-wave. Finally, we consider these models in the context of
S-I-N tunneling and optical excitation experiments. While we confirm that
recent pump/probe experiments in YBCO, as presently interpreted, are in
conflict with d-wave pairing, we refute the further claim that they agree with
s-wave.Comment: 14 pages, 11 figure
Relaxation time of the order parameter in a high-temperature superconductor
We present femtosecond time-resolved measurements on the high-Tc superconductor Tl2Ba2Ca2Cu3O10. At temperatures below Tc, we observe a relaxation process which is distinct from the equilibration of hot carriers in the normal state. Our results demonstrate an increasing relaxation rate as the superconducting gap opens. This is consistent with the behavior of conventional metallic superconductors