Magnetic resonance study of Cr ³⁺ and Fe ³⁺ centers in hexagonal Cs ₂ NaAlF ₆ and Cs ₂ NaGaF ₆ crystals

Abstract: Na nuclei. The correlation between spin Hamiltonian parameters and crystallographic data is discussed. The results support the earlier identification of the Cr 3+ centers in these crystals from optical measurements.

“…The D parameter values for both sites were D = −0.2540(5) cm −1 (for the S1 site) and −0.3560(5) cm −1 (for the S2 site). By comparing our values to those reported in the literature, a reasonable agreement is found for the magnitude of this parameter [19,[23][24][25]37]. Finally, using the transitions intensities, we obtained that 61% of Cr 3+ ions occupy the S2 site and 39% occupy the S1 site, which are close to the amount of Al 3+ in each site.…”

“…Other successful examples consist of perovskite-type oxides [11], metal-organic frameworks containing gadolinium [12], and molecular nanomagnets, such as Mn 32 [13] and Fe 14 [14]. However, very few studies have so far reported on caloric effects in fluoride systems [15][16][17], which is the aim of this paper.From the point of view of optical and structural properties, Cs 2 NaAl 1−x Cr x F 6 elpasolite single crystals, which crystallize in the R3m space group, have been thoroughly investigated [18][19][20][21][22][23][24][25][26][27]. The choice of the Cr 3+ ion as a doping impurity is justified by the fact that its 3d unfilled shell produces electronic transitions that increase the luminescent properties and the quantum yield of the material [20,[27][28][29].…”

“…From the point of view of optical and structural properties, Cs 2 NaAl 1−x Cr x F 6 elpasolite single crystals, which crystallize in the R3m space group, have been thoroughly investigated [18][19][20][21][22][23][24][25][26][27]. The choice of the Cr 3+ ion as a doping impurity is justified by the fact that its 3d unfilled shell produces electronic transitions that increase the luminescent properties and the quantum yield of the material [20,[27][28][29].…”

Cs2NaAl1−xCrxF6: A family of compounds presenting magnetocaloric effect

“…The D parameter values for both sites were D = −0.2540(5) cm −1 (for the S1 site) and −0.3560(5) cm −1 (for the S2 site). By comparing our values to those reported in the literature, a reasonable agreement is found for the magnitude of this parameter [19,[23][24][25]37]. Finally, using the transitions intensities, we obtained that 61% of Cr 3+ ions occupy the S2 site and 39% occupy the S1 site, which are close to the amount of Al 3+ in each site.…”

“…Other successful examples consist of perovskite-type oxides [11], metal-organic frameworks containing gadolinium [12], and molecular nanomagnets, such as Mn 32 [13] and Fe 14 [14]. However, very few studies have so far reported on caloric effects in fluoride systems [15][16][17], which is the aim of this paper.From the point of view of optical and structural properties, Cs 2 NaAl 1−x Cr x F 6 elpasolite single crystals, which crystallize in the R3m space group, have been thoroughly investigated [18][19][20][21][22][23][24][25][26][27]. The choice of the Cr 3+ ion as a doping impurity is justified by the fact that its 3d unfilled shell produces electronic transitions that increase the luminescent properties and the quantum yield of the material [20,[27][28][29].…”

“…From the point of view of optical and structural properties, Cs 2 NaAl 1−x Cr x F 6 elpasolite single crystals, which crystallize in the R3m space group, have been thoroughly investigated [18][19][20][21][22][23][24][25][26][27]. The choice of the Cr 3+ ion as a doping impurity is justified by the fact that its 3d unfilled shell produces electronic transitions that increase the luminescent properties and the quantum yield of the material [20,[27][28][29].…”

Cs2NaAl1−xCrxF6: A family of compounds presenting magnetocaloric effect

“…These results indicate that the degree of local distortion on the sites occupied by Cr 3+ ions is greater in Cs 2 NaAlF 6 :Cr 3+ compared to related compounds. Most recent electron paramagnetic resonance and electron-nuclear double resonance experiments support the spectroscopic results [13].…”

Raman and magnetic susceptibility studies of hexagonal elpasolite Cs2NaAlF6:Cr3+

“…From the point of view of optical and structural properties, Cs 2 NaAl 1−x Cr x F 6 elpasolite single crystals, which crystallize in the R 3m space group, have been thoroughly investigated [15][16][17][18][19][20][21][22][23][24] . The choice of the Cr 3+ ion as a doping impurity is justified by the fact that its 3d unfilled shell produces electronic transitions that increase the luminescent properties and the quantum yield of the material 17,[24][25][26] .…”

Cs2NaAl1-xCrxF6: A family of compounds presenting magnetocaloric effect