Presentation is loading. Please wait.

Presentation is loading. Please wait.

Topological Insulators Effects of spin on transport of electrons in solids.

Published byStuart Fletcher Modified over 9 years ago

Similar presentations

Presentation on theme: "Topological Insulators Effects of spin on transport of electrons in solids."— Presentation transcript:

1 Topological Insulators Effects of spin on transport of electrons in solids

2 Most figures from:

3 SPIN Mott insulators Rashba effect Superconductivity Quantum information and computation

4 Topological insulator Exhibits insulating behaviour in the bulk but has conducting edge or surface states So far the only models exploit spin-orbit interactions is generally related to introducing a time- reversal-symmetry breaking interaction, as is the case for SO. Existence established in some systems from ARPES experiments

5 Rashba effect Spin-orbit coupling-like potential 

6 SO in graphene

7 Cases A gap is produced For the gap is Quantized Hall conductivity: BUT! It will vanish for

8  Gapless edge states At the edges opposite spins travel opposite directions. (Kane et al) At low energy

9 Use like wires

10 Observation Graphene SO effects very small, hard to observe Bi 1-x Sb x Observed! Surface states instead of edge states Using ARPES

11

12 Promises Topological states robust to perturbation  Stable qubits for Quantum Computation Dissipation-less spin current transport  good for Spintronics  new SuperConductivity-like effects to be observed, I presume. Not literally.

13

14

Download ppt "Topological Insulators Effects of spin on transport of electrons in solids."

Similar presentations

Protected edge modes without symmetry Michael Levin University of Maryland.

Protected edge modes without symmetry Michael Levin University of Maryland.
Topological Insulators

Topological Insulators
Quasiparticle Scattering in 2-D Helical Liquid arXiv: 0910.0756 X. Zhou, C. Fang, W.-F. Tsai, J. P. Hu.

Quasiparticle Scattering in 2-D Helical Liquid arXiv: X. Zhou, C. Fang, W.-F. Tsai, J. P. Hu.
Spintronics with topological insulator Takehito Yokoyama, Yukio Tanaka *, and Naoto Nagaosa Department of Applied Physics, University of Tokyo, Japan *

Spintronics with topological insulator Takehito Yokoyama, Yukio Tanaka *, and Naoto Nagaosa Department of Applied Physics, University of Tokyo, Japan *
Exploring Topological Phases With Quantum Walks $$ NSF, AFOSR MURI, DARPA, ARO Harvard-MIT Takuya Kitagawa, Erez Berg, Mark Rudner Eugene Demler Harvard.

Exploring Topological Phases With Quantum Walks $$ NSF, AFOSR MURI, DARPA, ARO Harvard-MIT Takuya Kitagawa, Erez Berg, Mark Rudner Eugene Demler Harvard.
Berry curvature: Symmetry Consideration

Berry curvature: Symmetry Consideration
Journal Club of Topological Materials (2014). If you raised your hand you’re in the wrong place!! Show of hands, who here is familiar with the concept.

Journal Club of Topological Materials (2014). If you raised your hand you’re in the wrong place!! Show of hands, who here is familiar with the concept.
Ultrahigh-resolution spin-resolved ARPES of novel low-dimensional systems Seigo Souma Tohoku University May 31, 2010 A. Takayama, K. Sugawara, T. Sato,

Ultrahigh-resolution spin-resolved ARPES of novel low-dimensional systems Seigo Souma Tohoku University May 31, 2010 A. Takayama, K. Sugawara, T. Sato,
Half-Heusler Compounds for Topological Insulators Joshua Sayre Materials 286G May 26, 2010.

Half-Heusler Compounds for Topological Insulators Joshua Sayre Materials 286G May 26, 2010.
Topological Superconductors

Topological Superconductors
Funded by NSF, Harvard-MIT CUA, AFOSR, DARPA, MURI Takuya Kitagawa Harvard University Mark Rudner Harvard University Erez Berg Harvard University Yutaka.

Funded by NSF, Harvard-MIT CUA, AFOSR, DARPA, MURI Takuya Kitagawa Harvard University Mark Rudner Harvard University Erez Berg Harvard University Yutaka.
Topological Delocalization in Quantum Spin-Hall Systems without Time-Reversal Symmetry L. Sheng ( 盛利 ) Y. Y. Yang ( 杨运友 ), Z. Xu ( 徐中 ), D. Y. Xing ( 邢定钰.

Topological Delocalization in Quantum Spin-Hall Systems without Time-Reversal Symmetry L. Sheng ( 盛利 ) Y. Y. Yang ( 杨运友 ), Z. Xu ( 徐中 ), D. Y. Xing ( 邢定钰.
Interacting topological insulators out of equilibrium Dimitrie Culcer D. Culcer, PRB 84, 235411 (2011) D. Culcer, Physica E 44, 860 (2012) – review on.

Interacting topological insulators out of equilibrium Dimitrie Culcer D. Culcer, PRB 84, (2011) D. Culcer, Physica E 44, 860 (2012) – review on.
Quantum anomalous Hall effect (QAHE) and the quantum spin Hall effect (QSHE) Shoucheng Zhang, Stanford University Les Houches, June 2006.

Quantum anomalous Hall effect (QAHE) and the quantum spin Hall effect (QSHE) Shoucheng Zhang, Stanford University Les Houches, June 2006.
The Persistent Spin Helix Shou-Cheng Zhang, Stanford University Banff, Aug 2006.

The Persistent Spin Helix Shou-Cheng Zhang, Stanford University Banff, Aug 2006.
IRIDATES Bill Flaherty Materials 286K, UCSB Dec. 8 th, 2014.

IRIDATES Bill Flaherty Materials 286K, UCSB Dec. 8 th, 2014.
Z2 Structure of the Quantum Spin Hall Effect

Z2 Structure of the Quantum Spin Hall Effect
Topology of Andreev bound state

Topology of Andreev bound state
Fractional topological insulators

Fractional topological insulators
The Persistent Spin Helix Shou-Cheng Zhang, Stanford University Les Houches, June 2006.

The Persistent Spin Helix Shou-Cheng Zhang, Stanford University Les Houches, June 2006.

Similar presentations

Ads by Google