Magnetic circular dichroism in valence-band photo-emission from Fe(100)

ISSN:
0304-8853
Source:
Elsevier Journal Backfiles on ScienceDirect 1907 - 2002
Topics:
Physics
Type of Medium:
Electronic Resource
URL:
http://linkinghub.elsevier.com/retrieve/pii/0304-8853(92)91511-Q
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autor Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
autorsonst Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
book_url http://linkinghub.elsevier.com/retrieve/pii/0304-8853(92)91511-Q
datenlieferant nat_lic_papers
fussnote We report on a new effect in photo-emission with circularly polarized light called Magnetic Circular Dichroism in the Angular Distribution of photo-electrons (MCDAD). The phenomenon was studied in valence-band photo-emission from Fe(100) using synchrotron radiation from the storage ring BESSY (Berlin). In contrast to CDAD with nonmagnetic solids and adsorbates the MCDAD signal reverses its sign when the (macroscopic) magnetization of the sample is reversed. This effect is caused by exchange splitting in connection with spin-orbit interaction and dipole selection rules. The results are compared to data of spin-resolved photo-electron spectroscopy and a similar experiment performed in the X-ray region at Fe 2p"1"2 and 2p"3"2 core levels.
hauptsatz hsatz_simple
identnr NLZ179968815
issn 0304-8853
journal_name Journal of Magnetism and Magnetic Materials
materialart 1
package_name Elsevier
publikationsort Amsterdam
publisher Elsevier
reference 104-107 (1992), S. 1691-1692
search_space articles
shingle_author_1 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
shingle_author_2 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
shingle_author_3 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
shingle_author_4 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
shingle_catch_all_1 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
Magnetic circular dichroism in valence-band photo-emission from Fe(100)
0304-8853
03048853
Elsevier
shingle_catch_all_2 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
Magnetic circular dichroism in valence-band photo-emission from Fe(100)
0304-8853
03048853
Elsevier
shingle_catch_all_3 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
Magnetic circular dichroism in valence-band photo-emission from Fe(100)
0304-8853
03048853
Elsevier
shingle_catch_all_4 Bansmann, J.
Westphal, C.
Getzlaff, M.
Fegel, F.
Schonhense, G.
Magnetic circular dichroism in valence-band photo-emission from Fe(100)
0304-8853
03048853
Elsevier
shingle_title_1 Magnetic circular dichroism in valence-band photo-emission from Fe(100)
shingle_title_2 Magnetic circular dichroism in valence-band photo-emission from Fe(100)
shingle_title_3 Magnetic circular dichroism in valence-band photo-emission from Fe(100)
shingle_title_4 Magnetic circular dichroism in valence-band photo-emission from Fe(100)
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source_archive Elsevier Journal Backfiles on ScienceDirect 1907 - 2002
timestamp 2024-05-06T08:39:03.928Z
titel Magnetic circular dichroism in valence-band photo-emission from Fe(100)
titel_suche Magnetic circular dichroism in valence-band photo-emission from Fe(100)
We report on a new effect in photo-emission with circularly polarized light called Magnetic Circular Dichroism in the Angular Distribution of photo-electrons (MCDAD). The phenomenon was studied in valence-band photo-emission from Fe(100) using synchrotron radiation from the storage ring BESSY (Berlin). In contrast to CDAD with nonmagnetic solids and adsorbates the MCDAD signal reverses its sign when the (macroscopic) magnetization of the sample is reversed. This effect is caused by exchange splitting in connection with spin-orbit interaction and dipole selection rules. The results are compared to data of spin-resolved photo-electron spectroscopy and a similar experiment performed in the X-ray region at Fe 2p"1"2 and 2p"3"2 core levels.
topic U
uid nat_lic_papers_NLZ179968815