An apparatus for absorption measurements in the far infrared by Fourier transform

Meyer, Philippe; Petitgrand, D.

doi:10.1051/rphysap:01976001105066100

Rev. Phys. Appl. (Paris)

1976

DOI: 10.1051/rphysap:01976001105066100

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An apparatus for absorption measurements in the far infrared by Fourier transform

Philippe Meyer

D. Petitgrand

Abstract: Reçu le 8 mars 1976, accepté le 21 mai 1976) Résumé. 2014 L'article donne la description d'un système complet destiné à l'étude dans l'infrarouge lointain de matériaux magnétiques à des températures aussi basses que 1,3 K et à des champs magnétiques allant jusqu'à 7,5 T. Les bonnes performances de l'ensemble sont illustrées par des résultats sur FeCl2 et les ions de Fe2+ dans MgO. Abstract. 2014 The description of a complete system for far infrared studies of magnetic materials at temperatures as low as 1.3 K … Show more

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Cited by 8 publications

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“…Article published online by EDP Sciences and available at http://dx.doi.org/10.1051/jphys:0197600370120141700 ters (KBr 1 mm thick) can be inserted before the sample and before the bolometer to remove radiation of higher energy. A detailed description of the experimental setup is given in another paper [14].…”

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Far infrared antiferromagnetic resonance in FeCl2, FeBr 2 and FeI2

Petitgrand

Meyer

1976

J. Phys. France

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2014 Nous avons effectué des expériences de résonance antiferromagnétique dans FeCl2, FeBr2 et FeI2 en utilisant la technique de spectroscopie par transformation de Fourier dans l'infrarouge très lointain. Dans FeCl2 et FeBr2 nos résultats s'interprètent bien dans le modèle à deux sousréseaux avec un paramètre d'anisotropie D = 9,6 K. Dans FeI2 trois pics d'absorption situés à 21,6 ; 29,2 et 32,2 cm-1 ont été attribués à des excitations d'ondes de spin en centre de zone, ce qu'on ne peut comprendre qu'en supposant que FeI2 possède plus de deux sous-réseaux. Nous avons calculé les fréquences de résonance antiferromagnétique dans un modèle simple à quatre sousréseaux, et nous avons déduit les paramètres adaptés à FeI2. Cependant la séparation de 3 cm-1 que l'on observe expérimentalement entre les deux modes de haute fréquence suggère qu'un tel modèle pourrait être trop simple. Abstract. 2014 A far infrared investigation of antiferromagnetic resonance by means of Fouriertransform spectroscopy has been carried out in FeCl2, FeBr2 and FeI2. In FeCl2 and FeBr2 our results are found to agree well with the two-sublattice model with an anisotropy parameter D = 9.6 K. In FeI2 three absorption peaks situated at 21.6 cm-1, 29.2 cm-1, and 32.2 cm-1 have been attributed to excitation of zone-center spin waves, which can be understood only by assuming that FeI2 has more than two sublattices. The AFMR frequencies in a simple four sublattice model have been calculated, and the parameters relevant to FeI2 have been deduced. However the observation of a 3 cm-1 splitting between the two higher modes suggests that such a model may be too simple.

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Far infrared antiferromagnetic resonance in FeCl2, FeBr 2 and FeI2

Petitgrand

Meyer

1976

J. Phys. France

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Index to the literature dealing with the near-millimeter wave properties of materials

Simonis

1982

Int J Infrared Milli Waves

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Surface infrared spectroscopy

Chabal

1988

Surface Science Reports

907

366

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An apparatus for absorption measurements in the far infrared by Fourier transform

Cited by 8 publications

References 6 publications

Far infrared antiferromagnetic resonance in FeCl2, FeBr 2 and FeI2

Far infrared antiferromagnetic resonance in FeCl2, FeBr 2 and FeI2

Index to the literature dealing with the near-millimeter wave properties of materials

Surface infrared spectroscopy

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