Enhancement of Spin-Polarized Electron Emission from Strain-Compensated AlInGaAs-GaAsP Superlattices

Roberts, J. S.; Yashin, Yu. P.; Mamaev, Yu. A.; Gerchikov, L. G.; Maruyama, T.; Luh, D. -A.; Clendenin, J. E.

Enhancement of Spin-Polarized Electron Emission from Strain-Compensated AlInGaAs-GaAsP Superlattices Metadata

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Title

Main Title Enhancement of Spin-Polarized Electron Emission from Strain-Compensated AlInGaAs-GaAsP Superlattices

Creator

Author: Roberts, J. S.

Creator Type: Personal

Creator Info: University of Sheffield, Sheffield, UK
Author: Yashin, Yu. P.

Creator Type: Personal

Creator Info: Stanford Linear Accelerator Center, Menlo park, CA 94025, USA
Author: Mamaev, Yu. A.

Creator Type: Personal

Creator Info: Stanford Linear Accelerator Center, Menlo park, CA 94025, USA
Author: Gerchikov, L. G.

Creator Type: Personal

Creator Info: State Polytechnic Institute, St. Petersburg, Russia,
Author: Maruyama, T.

Creator Type: Personal

Creator Info: Stanford Linear Accelerator Center, Menlo park, CA 94025, USA
Author: Luh, D. -A.

Creator Type: Personal

Creator Info: Stanford Linear Accelerator Center, Menlo park, CA 94025, USA
Author: Clendenin, J. E.

Creator Type: Personal

Creator Info: Stanford Linear Accelerator Center, Menlo park, CA 94025, USA

Contributor

Sponsor: United States. Department of Energy.

Contributor Type: Organization

Publisher

Name: Stanford Linear Accelerator Center

Place of Publication: Menlo Park, California

Additional Info: SLAC

Date

Creation: 2006-12-08

Language

English

Description

Content Description: Resonance enhancement of the quantum efficiency of new polarized electron photocathodes based on a short-period strain-compensated AlInGaAs/GaAsP superlattice structure is reported. The superlattice is a part of an integrated Fabry-Perot optical cavity. We demonstrate that the Fabry-Perot resonator enhances the quantum efficiency by up to a factor 10 in the wavelength region of the main polarization maximum. The high structural quality implied by these results points to the very promising application of these photocathodes for spin-polarized electron sources.
Physical Description: 5 pages

Subject

Keyword: Electron Sources Accelerators,Accphy, Matsci
Keyword: Indium Arsenides
Keyword: Superlattices
Keyword: Resonators
Keyword: Aluminium Arsenides
STI Subject Categories: 36 Materials Science
Keyword: Polarization
Keyword: Accelerators,Accphy, Matsci
Keyword: Photocathodes
Keyword: Electron Emission
Keyword: Resonance
Keyword: Gallium Phosphides
Keyword: Spin
Keyword: Gallium Arsenides

Source

Conference: Contributed to 17th International Spin Physics Symposium (SPIN06), Kyoto, Japan, 2-7 Oct 2006

Collection

Name: Office of Scientific & Technical Information Technical Reports

Code: OSTI

Institution

Name: UNT Libraries Government Documents Department

Code: UNTGD

Resource Type

Article

Format

Text

Identifier

Report No.: SLAC-PUB-12248
Grant Number: AC02-76SF00515
Office of Scientific & Technical Information Report Number: 896158
Archival Resource Key: ark:/67531/metadc882249

Note

Display Note: http://www.slac.stanford.edu/cgi-wrap/pubpage?slac-pub-12248.html