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ETDEWEB   /       /    Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress

Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress

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Abstract

Ferromagnetic resonance spectra of the La{sub 0.67}Ca{sub 0.33}MnO{sub 3} ferromagnetic film deposited onto the x-cut LiNbO{sub 3} substrate were investigated in a wide temperature range. The strain was mechanically introduced into the film using a special holder configuration. This leads to a shift of resonance field with respect to that of the as-grown sample. Analysis of magnetic resonance shift, induced by a mechanical stress, allowed us to determine the magnetostriction constant {lambda}{sub 100}. The magnetostriction determined in this way versus saturation magnetization could be well described by the Callen and Callen theory suggesting the domination of the single ion crystal field interaction in the sample being in the ferromagnetic state. (author)
Authors:
Kundys, B; Dyakonov, V P; Baran, M; Gierlowski, P; Szymczak, R [1] 
  1. Institute of Physics, Polish Academy of Sciences, Warsaw (Poland)
Publication Date:
Jul 01, 2004
Product Type:
Journal Article
Resource Relation:
Journal Name: Acta Physica Polonica. Series A; Journal Volume: 105; Journal Issue: 1-2; Conference: Colossal Magnetoresistance - New Materials and New Ideas (in frames of E-MRS), Warsaw (Poland), 15-19 Sep 2003; Other Information: 25 refs, 4 figs; PBD: 2004
Subject:
36 MATERIALS SCIENCE; CALCIUM COMPOUNDS; CRYSTAL FIELD; CRYSTAL STRUCTURE; FERROMAGNETIC RESONANCE; FILMS; LANTHANUM COMPOUNDS; LITHIUM COMPOUNDS; MAGNETIZATION; MAGNETOSTRICTION; MANGANATES; NIOBATES; SPECTRAL SHIFT; STRESSES; SUBSTRATES; TEMPERATURE DEPENDENCE; X-RAY DIFFRACTION
OSTI ID:
20617051
Research Organizations:
Institute of Physics, Polish Academy of Sciences, Warsaw (Poland); European Materials Research Society, Strasbourg (France); Committee of Physics Polish Academy of Physics (Poland)
Country of Origin:
Poland
Language:
English
Other Identifying Numbers:
Journal ID: ISSN 0587-4246; ATPLB6; Other: KBN grants 2P03B04924 and PBZ-KBN-013/T08/19; TRN: PL0500742060280
Submitting Site:
INIS
Size:
page(s) 133-139
Announcement Date:
Aug 21, 2005

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Citation Formats

Kundys, B, Dyakonov, V P, Baran, M, Gierlowski, P, and Szymczak, R. Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress. Poland: N. p., 2004. Web.
Kundys, B, Dyakonov, V P, Baran, M, Gierlowski, P, & Szymczak, R. Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress. Poland.
Kundys, B, Dyakonov, V P, Baran, M, Gierlowski, P, and Szymczak, R. 2004. "Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress." Poland.
@misc{etde_20617051,
title = {Ferromagnetic resonance studies of La{sub 0.67}Ca{sub 0.33}MnO{sub 3} film under stress}
 author = {Kundys, B, Dyakonov, V P, Baran, M, Gierlowski, P, and Szymczak, R}
 abstractNote = {Ferromagnetic resonance spectra of the La{sub 0.67}Ca{sub 0.33}MnO{sub 3} ferromagnetic film deposited onto the x-cut LiNbO{sub 3} substrate were investigated in a wide temperature range. The strain was mechanically introduced into the film using a special holder configuration. This leads to a shift of resonance field with respect to that of the as-grown sample. Analysis of magnetic resonance shift, induced by a mechanical stress, allowed us to determine the magnetostriction constant {lambda}{sub 100}. The magnetostriction determined in this way versus saturation magnetization could be well described by the Callen and Callen theory suggesting the domination of the single ion crystal field interaction in the sample being in the ferromagnetic state. (author)}
 journal = []
 issue = {1-2}
 volume = {105}
 journal type = {AC}
 place = {Poland}
 year = {2004}
 month = {Jul}
 }