Magnetic versus crystal-field linear dichroism in NiO thin films

MW Haverkort; S. I. Csiszar; Z Hu; S Altieri; A Tanaka; HH Hsieh; HJ Lin; CT Chen; T Hibma; L. H.  Tjeng

doi:10.1103/PhysRevB.69.020408

Magnetic versus crystal-field linear dichroism in NiO thin films

MW Haverkort^*, S. I. Csiszar, Z Hu, S Altieri, A Tanaka, HH Hsieh, HJ Lin, CT Chen, T Hibma, L. H. Tjeng

^*Corresponding author for this work

Surfaces and Thin Films

Research output: Contribution to journal › Article › Academic › peer-review

91 Citations (Scopus)

Abstract

We have detected strong dichroism in the Ni L-2,L-3 x-ray absorption spectra of a monolayer NiO film. The dichroic signal appears to be very similar to the magnetic linear dichroism observed for thicker antiferromagnetic NiO films. Detailed analysis reveals, however, that the dichroism is caused by crystal-field effects in the monolayer film, which is a nontrivial effect because the high spin Ni 3d(8) ground state is not split by low-symmetry crystal fields. We present a practical method for identifying the independent magnetic and crystal-field contributions to the linear dichroic signal in spectra of NiO films with arbitrary thicknesses and lattice strains. Our findings are also relevant for 3d(5) and 3d(3) systems such as LaFeO3, Fe2O3, VO, LaCrO3, Cr2O3, and Mn4+ thin films.

Original language	English
Article number	020408
Number of pages	4
Journal	Physical Review. B: Condensed Matter and Materials Physics
Volume	69
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevB.69.020408
Publication status	Published - Jan-2004

Keywords

ANTIFERROMAGNETIC DOMAINS
MOMENTS
SURFACE
SPECTROMICROSCOPY
NIO(100)

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Magnetic versus crystal-field linear dichroism in NiO thin films
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title = "Magnetic versus crystal-field linear dichroism in NiO thin films",

abstract = "We have detected strong dichroism in the Ni L-2,L-3 x-ray absorption spectra of a monolayer NiO film. The dichroic signal appears to be very similar to the magnetic linear dichroism observed for thicker antiferromagnetic NiO films. Detailed analysis reveals, however, that the dichroism is caused by crystal-field effects in the monolayer film, which is a nontrivial effect because the high spin Ni 3d(8) ground state is not split by low-symmetry crystal fields. We present a practical method for identifying the independent magnetic and crystal-field contributions to the linear dichroic signal in spectra of NiO films with arbitrary thicknesses and lattice strains. Our findings are also relevant for 3d(5) and 3d(3) systems such as LaFeO3, Fe2O3, VO, LaCrO3, Cr2O3, and Mn4+ thin films.",

keywords = "ANTIFERROMAGNETIC DOMAINS, MOMENTS, SURFACE, SPECTROMICROSCOPY, NIO(100)",

author = "MW Haverkort and Csiszar, {S. I.} and Z Hu and S Altieri and A Tanaka and HH Hsieh and HJ Lin and CT Chen and T Hibma and Tjeng, {L. H.}",

year = "2004",

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doi = "10.1103/PhysRevB.69.020408",

language = "English",

volume = "69",

journal = "Physical Review. B: Condensed Matter and Materials Physics",

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TY - JOUR

T1 - Magnetic versus crystal-field linear dichroism in NiO thin films

AU - Haverkort, MW

AU - Csiszar, S. I.

AU - Hu, Z

AU - Altieri, S

AU - Tanaka, A

AU - Hsieh, HH

AU - Lin, HJ

AU - Chen, CT

AU - Hibma, T

AU - Tjeng, L. H.

PY - 2004/1

Y1 - 2004/1

N2 - We have detected strong dichroism in the Ni L-2,L-3 x-ray absorption spectra of a monolayer NiO film. The dichroic signal appears to be very similar to the magnetic linear dichroism observed for thicker antiferromagnetic NiO films. Detailed analysis reveals, however, that the dichroism is caused by crystal-field effects in the monolayer film, which is a nontrivial effect because the high spin Ni 3d(8) ground state is not split by low-symmetry crystal fields. We present a practical method for identifying the independent magnetic and crystal-field contributions to the linear dichroic signal in spectra of NiO films with arbitrary thicknesses and lattice strains. Our findings are also relevant for 3d(5) and 3d(3) systems such as LaFeO3, Fe2O3, VO, LaCrO3, Cr2O3, and Mn4+ thin films.

AB - We have detected strong dichroism in the Ni L-2,L-3 x-ray absorption spectra of a monolayer NiO film. The dichroic signal appears to be very similar to the magnetic linear dichroism observed for thicker antiferromagnetic NiO films. Detailed analysis reveals, however, that the dichroism is caused by crystal-field effects in the monolayer film, which is a nontrivial effect because the high spin Ni 3d(8) ground state is not split by low-symmetry crystal fields. We present a practical method for identifying the independent magnetic and crystal-field contributions to the linear dichroic signal in spectra of NiO films with arbitrary thicknesses and lattice strains. Our findings are also relevant for 3d(5) and 3d(3) systems such as LaFeO3, Fe2O3, VO, LaCrO3, Cr2O3, and Mn4+ thin films.

KW - ANTIFERROMAGNETIC DOMAINS

KW - MOMENTS

KW - SURFACE

KW - SPECTROMICROSCOPY

KW - NIO(100)

U2 - 10.1103/PhysRevB.69.020408

DO - 10.1103/PhysRevB.69.020408

M3 - Article

SN - 1098-0121

VL - 69

JO - Physical Review. B: Condensed Matter and Materials Physics

JF - Physical Review. B: Condensed Matter and Materials Physics

IS - 2

M1 - 020408

ER -

Magnetic versus crystal-field linear dichroism in NiO thin films

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Keywords

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