Dirac State in Giant Magnetoresistive Materials

Y. Wu; N.H. Jo; M. Ochi; L. Huang; D. Mou; T. Kong; E. Mun; L. Wang; Y. Lee; S. L. Bud'ko; P. C. Canfield; N. Trivedi; R. Arito; A. Kaminski

Dirac State in Giant Magnetoresistive Materials

ORAL

Abstract

We use ultrahigh resolution, tunable, vacuum ultraviolet laser-based angle-resolved photoemission spectroscopy (ARPES) to study the electronic properties of materials that recently were discovered to display titanic magnetoresistance. We find that that several of these materials have Dirac-like features in their band structure. In some materials those features are ``ordinary" Dirac cones, while in others the linear Dirac dispersion of two crossing bands forms a linear object in 3D momentum space. Our observation poses an important question about the role of Dirac dispersion in the unusually high, non-saturating magnetoresistance of these materials.

^*Research was supported by the US DOE, Office of Basic Energy Sciences under Contract No. DE-AC02-07CH11358; Gordon and Betty Moore Foundation EPiQS Initiative (Grant No. GBMF4411); CEM, a NSF MRSEC, under Grant No. DMR-1420451.

March 16, 2016, 1:03 PM – March 16, 2016, 1:15 PM

Authors

Y. Wu
- Iowa State University
- Ames Laboratory \& Iowa State University
N.H. Jo
- Ames Laboratory \& Iowa State University
M. Ochi
- RIKEN Center for Emergent Matter Science \& Tohoku University
L. Huang
- Ames Laboratory \& Iowa State University
D. Mou
- Ames Laboratory \& Iowa State University
T. Kong
- Ames Laboratory \& Iowa State University
E. Mun
- Ames Laboratory \& Iowa State University
L. Wang
- Ames Laboratory \& Iowa State University
Y. Lee
- Ames Laboratory \& Iowa State University
S. L. Bud'ko
- Ames Laboratory \& Iowa State University
P. C. Canfield
- Ames Laboratory \& Iowa State University
N. Trivedi
- Ohio State University
R. Arito
- RIKEN Center for Emergent Matter Science \& Tohoku University
A. Kaminski
- Ames Laboratory \& Iowa State University