中文版
 

Prof. Gang Cao: The Power of Strong Spin-Orbit Interactions: Challenges and Opportunities in Iridates (2018/05/23)

( 2018-05-22 )

Title

The Power of Strong Spin-Orbit Interactions: Challenges and Opportunities in Iridates

Speaker

  

Prof.Gang Cao

Department of Physics

University of Colorado at Boulder, USA

          

  

Time

4:00pm, May 23, 2018

Place

Room 9004 at the HFNL building

Brief Bio of the Speaker

Gang Cao obtained his PhD from Temple University under direction of Prof. Jack E. Crow, the founding Director of the US National High Magnetic Field Laboratory in 1993.Dr. Cao subsequently worked at the US National High Magnetic Field Laboratory from 1993 to 2002, and then as Jack and Linda Gill Professor at University of Kentucky from 2002 to 2016 before he joined the faculty of the University of Colorado at Boulder. Professor Cao is Fellow of the American Physical Society. His research encompasses a methodical search for novel quantum materials in the single-crystal form, and a systematic effort to elucidate the underlying physics of these materials.

Visit his homepage for details:https://www.colorado.edu/lab/cao/.

Abstract

Effects of spin-orbit interactions in condensed matter are an important and rapidly evolving topic.Strong competition between spin-orbit, on-site Coulomb and crystalline electric field interactions in iridates drives exotic quantum states that are unique to this group of materials.This talk offers a brief review of current experimental studies of iridates [1] and emphasize discrepancies between experimental confirmation and theoretical proposals that address superconducting, topological and quantum spin liquid phases. It then reports our most recent study on electrical-current controlled behavior in iridates [2].Electrical control of structural and physical properties is a long-sought, but elusive goal of contemporary science and technology.This work demonstrates that a combination of strong spin-orbit interactions and a canted antiferromagnetic Mott state is sufficient to attain that goal and points the way to novel possibilities for functional materials and devices [2].

References:

1.The Challenge of Spin-Orbit-Tuned Ground-States in the Iridates: A Key Issues Review”, Gang Cao and P. Schlottmann,Reports on Progress in Physics81 042502 (2018);https://doi.org/10.1088/1361-6633/aaa979

2.Electrical Control of Structural and Physical Properties via Spin-Orbit Interactions in Sr2IrO4”, G. Cao, J. Terzic, H. D. Zhao, H. Zheng, Peter Riseborough, L. E. DeLong,Phys. Rev. Lett.120,017201 (2018);https://doi.org/10.1103/PhysRevLett.120.017201;Editor’s Suggestion


Seminar
 
[2024-03-13]
[2024-03-13]
[2024-01-15]
[2023-12-21]
[2023-12-12]
[2023-12-08]
[2023-12-05]
[2023-12-05]
Links
 
CopyRight@International Center for Quantum Eesign of Functional Materials
Counter :