Microwave calorimetry using X-rays

► New approach for microwave calorimetry using synchrotron radiation powder diffraction. ► In situ monitoring of the magnetostructural transformation of Co under magnetic microwave heating at 2.45 GHz. ► Magnetic heat capacity of Co due to the spin-reorientation transition at microwave frequencies....

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Bibliographic Details
Published in:Thermochimica acta 2011-11, Vol.526 (1), p.137-142
Main Authors: Nicula, R., Stir, M., Wurm, A., Catalá-Civera, J.M., Ishizaki, K., Vaucher, S., Zhuravlev, E., Schick, C.
Format: Article
Language:English
Subjects:
Analytical chemistry
Assessments
Calorimetry
Chemical and thermal methods
Chemistry
Cobalt
Diffraction
Exact sciences and technology
Heat capacity
Magnetostructural transformations
Microwave interaction with condensed matter
Microwaves
Specific heat
Synchrotron radiation
Thermal expansion
X-ray diffraction
X-rays
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Summary:► New approach for microwave calorimetry using synchrotron radiation powder diffraction. ► In situ monitoring of the magnetostructural transformation of Co under magnetic microwave heating at 2.45 GHz. ► Magnetic heat capacity of Co due to the spin-reorientation transition at microwave frequencies. An alternative approach for microwave calorimetry is proposed which relies on the synchrotron radiation powder diffraction technique as well as on the Grüneisen formalism for the analysis of thermal expansion. Cobalt was selected as suitable magnetic material for the present evaluation of the method. First results are reported concerning the calorimetric assessment of the HCP (hexagonal close-packed) to FCC (face centered cubic) transition of cobalt from in situ time-resolved X-ray diffraction experiments performed during magnetic (H-field) microwave heating. The X-ray calorimetry method yields specific heat capacity estimations that compare well with results from conventional differential scanning calorimetry measurements. In the presence of the 2.45 GHz microwave H-field, an ‘anomalous’ behaviour of the heat capacity across the structural phase transition is detected, which can be correlated with the magnetic spin reorientation transition of cobalt in the same temperature range.
ISSN:0040-6031
1872-762X
DOI:10.1016/j.tca.2011.09.007