School of Physics:: Colloquia & Seminars

March 4, 2008 (Tuesday)
Howey S107

"Intrinsic Spin-Hall Effect in 2D Electron Systems"

Eugene Mishchenko, University of Utah

Conventional Hall effect is manifested by the accumulation of electric charges at the edges of a conductor placed in a magnetic field when electric current is driven through it. Spin-Hall effect is a spin analog of the Hall effect: in the presence of electric current spins of different directions may be driven to the opposite edges of a conductor. This effect occurs as a result of spin-orbital interaction which couples electron spin to its momentum. Spin-Hall effect can be extrinsic (due to impurities) or intrinsic (due to properties of band structure). I will present an overview of basic theoretical concepts of Spin-Hall Effect as well as address several existing experiments. Intrinsic Spin-Hall effect originally predicted to be universal in a 2D electron gas -- independent of the strength of spin-orbit coupling -- turned out to be destroyed by an arbitrarily small disorder in any steady state of an infinite 2DEG. Is it possible to have non-vanishing spin-Hall effect in case of a mesoscopic system with the size less that the mean free path and to which extent will the effect be really universal? We find that the net spin polarization across the edge of the conductor is independent of the form of the confining boundary potential.

Colloquia & Seminars » Frontiers In Science

Frontiers In Science seminar

March 4, 2008 (Tuesday)
Howey S107

"Intrinsic Spin-Hall Effect in 2D Electron Systems"

Eugene Mishchenko, University of Utah


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	Colloquia & Seminars » Frontiers In Science Frontiers In Science seminar March 4, 2008 (Tuesday) Howey S107 "Intrinsic Spin-Hall Effect in 2D Electron Systems" Eugene Mishchenko, University of Utah Conventional Hall effect is manifested by the accumulation of electric charges at the edges of a conductor placed in a magnetic field when electric current is driven through it. Spin-Hall effect is a spin analog of the Hall effect: in the presence of electric current spins of different directions may be driven to the opposite edges of a conductor. This effect occurs as a result of spin-orbital interaction which couples electron spin to its momentum. Spin-Hall effect can be extrinsic (due to impurities) or intrinsic (due to properties of band structure). I will present an overview of basic theoretical concepts of Spin-Hall Effect as well as address several existing experiments. Intrinsic Spin-Hall effect originally predicted to be universal in a 2D electron gas -- independent of the strength of spin-orbit coupling -- turned out to be destroyed by an arbitrarily small disorder in any steady state of an infinite 2DEG. Is it possible to have non-vanishing spin-Hall effect in case of a mesoscopic system with the size less that the mean free path and to which extent will the effect be really universal? We find that the net spin polarization across the edge of the conductor is independent of the form of the confining boundary potential. \| What's New \| Help Sessions \| Directions \| Site Map \| \| College of Science \| Georgia Tech \| Campus Map \| Phone: (404) 894-5201 Fax: (404) 894-9958 Address: 837 State Street, Atlanta, GA 30332-0430 If you have any questions or comments concerning this site, please contact webadmin [at] physics.gatech.edu.

Colloquia & Seminars » Frontiers In Science

Frontiers In Science seminar

March 4, 2008 (Tuesday) Howey S107

"Intrinsic Spin-Hall Effect in 2D Electron Systems" Eugene Mishchenko, University of Utah

March 4, 2008 (Tuesday)
Howey S107

"Intrinsic Spin-Hall Effect in 2D Electron Systems"

Eugene Mishchenko, University of Utah