Determination of xenon valence and conduction bands by spin-polarized photoemission

Kessler B, Eyers A, Horn K, Müller N, Schmiedeskamp G, Schönhense G, Heinzmann U (1987)
Physical review letters 59(3): 331-334.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Kessler, B.; Eyers, A.; Horn, K.; Müller, NorbertUniBi; Schmiedeskamp, G.; Schönhense, G.; Heinzmann, UlrichUniBi
Abstract / Bemerkung
Using circularly polarized synchrotron radiation and spin-resolved photoemission, we have studied the valence and conduction bands of Xe(111) up to about 18 eV above the valence-band maximum. Direct information about the symmetry of bands and their hybridization is provided by photoelectron spin polarization. Our data also prove the existence of a gap in the unoccupied bands above the fundamental gap. A comparison of our data with calculated band structures shows the importance of an energy-dependent self-energy correction.
Erscheinungsjahr
1987
Zeitschriftentitel
Physical review letters
Band
59
Ausgabe
3
Seite(n)
331-334
ISSN
0031-9007
Page URI
https://pub.uni-bielefeld.de/record/1775328

Zitieren

Kessler B, Eyers A, Horn K, et al. Determination of xenon valence and conduction bands by spin-polarized photoemission. Physical review letters. 1987;59(3):331-334.
Kessler, B., Eyers, A., Horn, K., Müller, N., Schmiedeskamp, G., Schönhense, G., & Heinzmann, U. (1987). Determination of xenon valence and conduction bands by spin-polarized photoemission. Physical review letters, 59(3), 331-334. https://doi.org/10.1103/PhysRevLett.59.331
Kessler, B., Eyers, A., Horn, K., Müller, Norbert, Schmiedeskamp, G., Schönhense, G., and Heinzmann, Ulrich. 1987. “Determination of xenon valence and conduction bands by spin-polarized photoemission”. Physical review letters 59 (3): 331-334.
Kessler, B., Eyers, A., Horn, K., Müller, N., Schmiedeskamp, G., Schönhense, G., and Heinzmann, U. (1987). Determination of xenon valence and conduction bands by spin-polarized photoemission. Physical review letters 59, 331-334.
Kessler, B., et al., 1987. Determination of xenon valence and conduction bands by spin-polarized photoemission. Physical review letters, 59(3), p 331-334.
B. Kessler, et al., “Determination of xenon valence and conduction bands by spin-polarized photoemission”, Physical review letters, vol. 59, 1987, pp. 331-334.
Kessler, B., Eyers, A., Horn, K., Müller, N., Schmiedeskamp, G., Schönhense, G., Heinzmann, U.: Determination of xenon valence and conduction bands by spin-polarized photoemission. Physical review letters. 59, 331-334 (1987).
Kessler, B., Eyers, A., Horn, K., Müller, Norbert, Schmiedeskamp, G., Schönhense, G., and Heinzmann, Ulrich. “Determination of xenon valence and conduction bands by spin-polarized photoemission”. Physical review letters 59.3 (1987): 331-334.
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4 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Necessity of self-energy corrections in LEED theory for Xe(111): Comparison between theoretical and experimental spin-polarized LEED data.
Hilgers G, Potthoff M, Müller N, Heinzmann U, Haunert L, Braun J, Borstel G., Phys Rev B Condens Matter 52(20), 1995
PMID: 9980826
Soft-x-ray-emission spectra of solid Kr and Xe.
Jia JJ, O'Brien WL, Callcott TA, Dong QY, Rubensson JE, Mueller DR, Ederer DL., Phys Rev Lett 67(6), 1991
PMID: 10044974
Hall mobility of electrons in liquid and solid argon.
Ascarelli G., Phys Rev B Condens Matter 40(3), 1989
PMID: 9992048

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Daten bereitgestellt von Europe PubMed Central.


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