Structural phase transition below 250 K in superconducting K0.75Fe1.75Se2

Abstract

Vibrational properties of iron-chalcogenide superconductor K0.75Fe1.75Se2 with Tc 30 K have been measured by Raman and optical spectroscopies over temperature range of 3-300 K. Sample undergoes I4/m I4 structural phase transition accompanied by loss of inversion symmetry at T1, below 250 K, observed as appearance of new fully-symmetric Raman mode at 165 cm-1. Small vibration mode anomalies are also observed at T2 160 K. From first-principles vibrational analysis of antiferromagnetic K0.8Fe1.6Se2 utilizing pseudopotentials all observed Raman and infrared modes have been assigned and the displacement patterns of the new Raman mode identified as involving predominantly the Se atoms.