Optical Study of Rare Earth Lasing Material in Visible and Ir Region

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Optical Study of Rare Earth Lasing Material in Visible and Ir Region

Author Affiliations

¹ Department of Physics, Jai Narain Vyas University, Jodhpur, Rajasthan, INDIA

Res. J. Physical Sci., Volume 1, Issue (2), Pages 9-14, March,4 (2013)

Abstract

The optical absorption spectra of complex of Neodymium in different solvents i.e water, Methanol ,Ethanol and Acetic Acid have been recorded in visible region (360-900 nm for Nd³⁺) and in IR region (1100-2400 nm) using amino acid Alanine as primary ligand and Propane 1-3 diol as secondary ligand in ratio(1:2:1). The value of energies and intensities of various transitions have been calculated using Judd-ofelt relation is in good agreement with experimental result. The complex studied is found to be ionic in nature. The effect of various ligand on the position and intensity of the observed transition in different environments have been discussed in term of metal-ligand co-ordinate.

References

Henrie D.F. and Choppin G.R., Environmental Effects on f–f Transitions. II. "Hypersensitivity" in SomeComplexes of Trivalent Neodymium, J. Chem. Phys(USA).,49, 477-481 (1968)
Tandon S.P., and Mehta P.C., Spectral Intensities of Some Pr3+ -Diketonates, J. Che Phys (USA).,52, 4313-4315 (1970)
Sharma Y.K., et al., Optical absorption and fluorescence spectra of Pr(III) doped borosilicate glasses and their Judd-Ofelt analysis to study lasing characteristics, Indian J. of Pure and A. Phys.,46, 239-244 (2008)
Wong Y., Taylor Series Expansion of the Intermediate Coupling Energy Levels of Nd3+ and ErH., 35, 544-546 (1968)
Karakker D.G., Spectral Study on the Nd3+ and Er3+Chelates of heptafluorodimethyloctanedione, J. Inorg. and Nucl. chem. (GB).,33, 3713-3718 (1971)
Stefan Lis ., et al., Spectroscopic properties of neodymium(III)-containingpolyoxometalates in aqueous solution, J. Spectrochimica Acta Part A.,62, 478-482 (2005)
Tandon S.P., and Govil R.C., Diffuse ReBectance Spectra of Some Rare Earth i3-Diketonates and Esters in the Ultraviolet Region., J. Chem. Phys.,57, 4097-4098 (1972)
Bhutra M. P., Tandon S. P.and Gupta Anup K., Absorption Spectra of ternary Complexes of Rare Earths, Rev. Tec. Ing., Univ. Zulia,7, 19-21 (1984)
Judd B.R., Atomic Shell Theory Recast, Physical Review, 162, 28-37 (1967)
Binnemans K.,et al., Spectroscopic study of neodymium soaps in 1-pentanol, J. of Alloys and compounds,303, 387-392 (2000)
Srinivasa Rao L., et al., Spectroscopic features of Pr3+, Nd3+, Sm3+ and Er3+ ions in Li2O–MO (Nb2O5, MoO3 and WO3) –B2O3 glass systems, Physica B: condensed Matter, 403, 2542-2556 (2008)
Judd B.R., Optical Absorption Intensities of Rare Earth Ions, Physical Review,127, 750-761 (1962)
Carnall W.T., Fields P.R. and Wybourne B.G., Spectral Intensities of the Trivalent Lanthanides and Actinides in Solution. I. Pr3+, Nd3+, Er3+, Tm3+, and Yb3+, J. Chem. Phys.,42, 3797-3807 (1965)
Bhutra M. P. and Gupta Anup K., Spectral Study of Ternary Complexes of Rare Earths with Different Amino Acid, Indian J. of pure and applied Phys.,21, 674-676 (1983)

[ref1] Henrie D.F. and Choppin G.R., Environmental Effects on f–f Transitions. II. "Hypersensitivity" in SomeComplexes of Trivalent Neodymium, J. Chem. Phys(USA).,49, 477-481 (1968)

[ref2] Tandon S.P., and Mehta P.C., Spectral Intensities of Some Pr3+ -Diketonates, J. Che Phys (USA).,52, 4313-4315 (1970)

[ref3] Sharma Y.K., et al., Optical absorption and fluorescence spectra of Pr(III) doped borosilicate glasses and their Judd-Ofelt analysis to study lasing characteristics, Indian J. of Pure and A. Phys.,46, 239-244 (2008)

[ref4] Wong Y., Taylor Series Expansion of the Intermediate Coupling Energy Levels of Nd3+ and ErH., 35, 544-546 (1968)

[ref5] Karakker D.G., Spectral Study on the Nd3+ and Er3+Chelates of heptafluorodimethyloctanedione, J. Inorg. and Nucl. chem. (GB).,33, 3713-3718 (1971)

[ref6] Stefan Lis ., et al., Spectroscopic properties of neodymium(III)-containingpolyoxometalates in aqueous solution, J. Spectrochimica Acta Part A.,62, 478-482 (2005)

[ref7] Tandon S.P., and Govil R.C., Diffuse ReBectance Spectra of Some Rare Earth i3-Diketonates and Esters in the Ultraviolet Region., J. Chem. Phys.,57, 4097-4098 (1972)

[ref8] Bhutra M. P., Tandon S. P.and Gupta Anup K., Absorption Spectra of ternary Complexes of Rare Earths, Rev. Tec. Ing., Univ. Zulia,7, 19-21 (1984)

[ref9] Judd B.R., Atomic Shell Theory Recast, Physical Review, 162, 28-37 (1967)

[ref10] Binnemans K.,et al., Spectroscopic study of neodymium soaps in 1-pentanol, J. of Alloys and compounds,303, 387-392 (2000)

[ref11] Srinivasa Rao L., et al., Spectroscopic features of Pr3+, Nd3+, Sm3+ and Er3+ ions in Li2O–MO (Nb2O5, MoO3 and WO3) –B2O3 glass systems, Physica B: condensed Matter, 403, 2542-2556 (2008)

[ref12] Judd B.R., Optical Absorption Intensities of Rare Earth Ions, Physical Review,127, 750-761 (1962)

[ref13] Carnall W.T., Fields P.R. and Wybourne B.G., Spectral Intensities of the Trivalent Lanthanides and Actinides in Solution. I. Pr3+, Nd3+, Er3+, Tm3+, and Yb3+, J. Chem. Phys.,42, 3797-3807 (1965)

[ref14] Bhutra M. P. and Gupta Anup K., Spectral Study of Ternary Complexes of Rare Earths with Different Amino Acid, Indian J. of pure and applied Phys.,21, 674-676 (1983)