Phonon and Magnetic Excitations in Superconducting Ca10Pt4As8(Fe1-xPtxAs)10

Abstract

Inelastic neutron scattering studies have been carried out on selected phonons and magnetic excitations of a crystal of superconducting (SC) Ca10Pt4As8(Fe1-xPtxAs)10 with the onset transition temperature T c onset 33 K to investigate the role that orbital fluctuations play in the Cooper pairing. The spectral weight of the magnetic excitations, ''( Q, ω) at Q = Q M (magnetic points) is suppressed (enhanced) in the relatively low (high) ω region. The maximum of the enhancement is located at ω = ω p 18 meV at temperature T = 3 K corresponding to the ω p/k BT c onset 6.3. This large value is rather favorable to the orbital-fluctuation mechanism of the superconductivity with the so-called S++ symmetry. In the phonon measurements, we observed slight softening of the in-plane transverse acoustic mode corresponding to the elastic constant C66. This softening starts at T well above the superconducting T c, as T decreases. An anomalously large increase in the phonon spectral weight of in-plane optical modes was observed in the range of 35 < ω < 40 meV with decreasing T from far above T c. Because this ω region mainly corresponds to the in-plane vibrations of Fe atoms, the finding presents information on the coupling between the orbital fluctuation of the Fe 3d electrons and lattice system, useful for studying possible roles of the orbital fluctuation in the pairing mechanism and appearance of the so-called nematic phase.