"Evidence for a strong impact of the electron-photon matrix element on angle-resolved photoelectron spectra of layered cuprate compounds" by S. Haffner

Article

Evidence for a strong impact of the electron-photon matrix element on angle-resolved photoelectron spectra of layered cuprate compounds

Physical Review B

S. Haffner, Iowa State University
C. G. Olson, Iowa State University
L. L. Miller, Iowa State University
David W. Lynch, Iowa State University

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Document Type

Article

Disciplines

Publication Date

6-1-2000

DOI

10.1103/PhysRevB.61.14378

Abstract

Little is known about the impact of the electron-photon matrix element on angle-resolved photoelectron spectra of layered cuprate compounds. Using the example of the model layered cuprate Sr2CuO2Cl2, we demonstrate that the electron-photon matrix element has a significant influence on energy distribution curves, rendering their interpretation as images of the spectral function nontrivial.

Comments

This article is from Physical Review B 61 (2000): 14378, doi:10.1103/PhysRevB.61.14378. Posted with permission,

The American Physical Society

2000

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File Format

application/pdf

Citation Information

S. Haffner, C. G. Olson, L. L. Miller and David W. Lynch. "Evidence for a strong impact of the electron-photon matrix element on angle-resolved photoelectron spectra of layered cuprate compounds" Physical Review B Vol. 61 Iss. 21 (2000) p. 14378 - 14381
Available at: http://works.bepress.com/david_lynch1/58/