Quantum Criticality and 2-D dissipative quantum XY ferromagnetism in single crystalline YFe2Al10 from MuSR investivations
ORAL
Abstract
We have performed Muon spin relaxation ($\mu$SR) measurements on single crystalline YFe$_2$Al$_{10}$ down to 19 mK and in magnetic fields up to $\sim$100 Oe with fields applied along the b-axis and c-axis. Zero-field-$\mu$SR measurements showed no evidence of magnetic order down to 19 mK, consistent with previous measurements. Interestingly we also find that the depolarization rate $\Lambda$ is temperature independent above 1 K but displays a strong diverging temperature dependence for $T <$ 1 K, different than what was observed for polycrystals of YFe$_2$Al$_{10}$. Longitudinal-field $\mu$SR measurements also reveals a time-field scaling for multiple temperatures in fields up to 200 Oe. From this work we find that single crystalline YFe$_2$Al$_{10}$ is in close proximity to a ferromagnetic quantum critical point and find evidence that it is the first experimental realization of a 2-D dissipative XY-model ferromagnet.
–
Authors
-
K. Huang
Fudan University, University of California
-
Cheng Tan
Fudan University
-
Jian Zhang
Fudan University
-
Zhaofeng Ding
Fudan University
-
Douglas MacLaughlin
University of California, Riverside
-
Oscar Bernal
California State University, Los Angeles, Physics Department, California State University, Los Angeles, CA 90032
-
Pei-Chun Ho
CSU-Fresno, California, State University, Fresno, Cal State Univ- Fresno, California State University, Fresno
-
L. Wu
Stony Brook University
-
Meigan Aronson
Texas A&M Univ, Stony Brook University
-
Lei Shu
Fudan U, China, Fudan University, Fudan Univ., Shanghai 200433, China