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We note that new small peaks appear at 10 (formula presented) and (formula presented) above 950 K in x-ray diffraction patterns. These peaks do not disappear even after cooling the sample to room temperature, indicating that these are caused by decomposition products
-
We note that new small peaks appear at 10 (formula presented) and (formula presented) above 950 K in x-ray diffraction patterns. These peaks do not disappear even after cooling the sample to room temperature, indicating that these are caused by decomposition products.
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19
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85038313473
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the estimation of the magnetic moment, we ignored the trimerization of Mn ions
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In the estimation of the magnetic moment, we ignored the trimerization of Mn ions.
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20
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85038267931
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unpublished
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T. Katsufuji et al. (unpublished).
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Katsufuji, T.1
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21
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85038266349
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The existence of small amounts of impurity phases prevents us from precisely determining the Mn valence by simple methods, such as thermogravimetric analysis and titration technique
-
The existence of small amounts of impurity phases prevents us from precisely determining the Mn valence by simple methods, such as thermogravimetric analysis and titration technique.
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22
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0343777322
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23
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85038290011
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However, the spin-reorientation transition at low temperatures that Fiebig et al. had observed for (formula presented) (Ref. 21), which should result in the appearance of the (100) peak in neutron scattering, has not been observed in our experiment
-
However, the spin-reorientation transition at low temperatures that Fiebig et al. had observed for (formula presented) (Ref. 21), which should result in the appearance of the (100) peak in neutron scattering, has not been observed in our experiment.
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25
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0001187185
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26
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85038269799
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Though its intensity is very weak, a new peak at (formula presented) is seen in the neutron diffraction pattern of (formula presented) at 10 K, which indicates the change of the spin orientation with Zr doping and the appearance of the (100) peak as a result
-
Though its intensity is very weak, a new peak at (formula presented) is seen in the neutron diffraction pattern of (formula presented) at 10 K, which indicates the change of the spin orientation with Zr doping and the appearance of the (100) peak as a result.
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28
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0032511681
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