Enhanced SDW transition temperature under hydrostatic pressure in Fe1.02Se0.10Te0.90

Naoyuki Katayama; Kazuyuki Matsubayashi; J.B. Le\~{a}o; Sungdae Ji; Sung Chang; Yoshiya Uwatoko; Taku Sato; Seunghun Lee

Enhanced SDW transition temperature under hydrostatic pressure in Fe1.02Se0.10Te0.90

ORAL

Abstract

We will present the spin glass (SG) to spin density wave (SDW) transition in Fe1.02Se0.10Te0.90 under hydrostatic pressure. At ambient pressure, the present compound shows SG transition, characterized by a broad weak magnetic peak. By applying hydrostatic pressure, SG develops to SDW at Pc $\sim $ 0.5 GPa and the sharp strong magnetic Bragg peak appears. The SDW transition temperature is increased up to $\sim $ 250 K at 8 GPa, which is sharply contrast to the results of pressure experiments in LaFeAsO families and BaFe2As2 families.

March 24, 2011, 2:51 PM – March 24, 2011, 3:03 PM

Authors

Naoyuki Katayama

University of Virginia
Kazuyuki Matsubayashi

University of Tokyo
J.B. Le\~{a}o

NIST, NIST Center for Neutron Research
Sungdae Ji

University of Virginia
Sung Chang

NIST, NIST Center for Neutron Research, National Institute of Standard and Technology
Yoshiya Uwatoko

University of Tokyo
Taku Sato

University of Tokyo
Seunghun Lee

University of Virginia