NIR luminescence, hypersensitivity in the 4f ‒ 4f absorption spectra and NMR of seven-, eight- and nine-coordinate ternary neodymium(III) complexes

In this work, properties of Nd3+ in Gd2O3-CaO-SiO2-B2O3 glass systems with composition 25Gd2O3-10CaO-10SiO2-(55-x)B2O3-xNd2O3 where x = 0.0, 0.5, 1.0, 1.5, 2.0 and 2.5 mol% were investigated. The optical absorption spectra show peaks at 4F3/2 (877 nm) , 4F5/2+2H9/2 (802 nm), 4F7/2+4S3/2 (743 nm), 4F9/2 (682 nm), 2H11/2 (627 nm), 2G7/2 +4G5/2 (582 nm), 4G7/2 +2K13/2 (527 nm), 4G11/2 (481 nm), 2P1/2 (427 nm) and 2L15/2 + 4D1/2 + 1I11/2+ 4D5/2+ 4D3/2 (355 nm) reflecting the Nd3+ ions in glass matrices. The densities were increased with increasing of Nd2O3 concentration. This indicates the increase of the molecular weight by the replacement of B2O3 with a heavier Nd2O3 oxide in the glass. The upconversion luminescence spectra show bands at 393 nm for all Nd2O3 concentration and the strongest intensity from 2.5 % mol of Nd2O3 was obtained. For NIR luminescence, the intensity of Nd3+ emission spectra increases with increasing concentrations of Nd3+ up to 1.5 mol% and beyond 1.5 mol% the concentration quenching is observed.

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Luminescence Properties of Nd3+ Ions Doped in CaO-Y2O3-SiO2-B2O3 Glasses

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.675-676.355 ◽

2016 ◽

Vol 675-676 ◽

pp. 355-358

Author(s):

Natthakridta Chanthima ◽

Jakrapong Kaewkhao

Keyword(s):

Molar Volume ◽

Absorption Spectra ◽

Luminescence Intensity ◽

Room Temperature ◽

Luminescence Properties ◽

Melt Quenching ◽

Absorption Bands ◽

Ion Concentrations ◽

Volume Measurements ◽

Nir Luminescence

Calcium yttrium silicoborate glasses doped with different Nd3+ ion concentrations have been prepared using the melt quenching technique at 1400 °C. Physical, optical and luminescence properties of glass samples were investigated. The density and molar volume measurements were carried out at room temperature. The results show that, the density and molar volume of glass samples not deepened on the concentration of Nd2O3. Absorption spectra were investigated in the UV–VIS–NIR region from 200 to 2500 nm. It was observed that the absorption bands have 8 peaks with corresponding to 467, 521, 584, 638, 682, 747, 805 and 877 nm. The luminescence properties were investigated in the NIR region. On excitation, with 584 and 805 nm, it is found that the emission peaks are located at 896 (904), 1060 and 1332 nm that correspond to the emission transitions from 4F3/2 to 4I9/2, 4I11/2 and 4I13/2, respectively. The NIR luminescence intensity obtained with 584 nm excitation was stronger than 805 nm.

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Ultraviolet Absorption of Refractory Elements by a Dual Laser Plasma Method

International Astronomical Union Colloquium ◽

10.1017/s0252921100107821 ◽

1988 ◽

Vol 102 ◽

pp. 243-246

Author(s):

J.T. Costello ◽

W.G. Lynam ◽

P.K. Carroll

Keyword(s):

Absorption Spectra ◽

Laser Plasma ◽

Optical Pulse ◽

Ionic Species ◽

Neutral Species ◽

Plasma Method ◽

Plasma Technique ◽

Refractory Elements ◽

Delay Times ◽

Dual Laser

AbstractThe dual laser-produced plasma technique for the study of ionic absorption spectra has been developed by the use of two Q-switched ruby lasers to enable independent generation of the absorbing and back-lighting plasmas. Optical pulse handling is used in the coupling cicuits to enable reproducible pulse delays from 250 nsec. to 10 msec, to be achieved. At delay times > 700 nsec. spectra of essentially pure neutral species are observed. The technique is valuable, not only for obtaining the neutral spectra of highly refractory and/or corrosive materials but also for studying behaviour of ionic species as a function of time. Typical spectra are shown in Fig. 1.

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XUV Absorption Spectra of Carbon Ions

International Astronomical Union Colloquium ◽

10.1017/s0252921100107444 ◽

1988 ◽

Vol 102 ◽

pp. 71-73

Author(s):

E. Jannitti ◽

P. Nicolosi ◽

G. Tondello

Keyword(s):

Absorption Spectra ◽

Cross Section ◽

Theoretical Calculations ◽

Photoionization Cross Section ◽

Carbon Ions

AbstractThe photoabsorption spectra of the carbon ions have been obtained by using two laser-produced plasmas. The photoionization cross-section of the CV has been absolutely measured and the value at threshold, σ=(4.7±0.5) × 10−19cm2, as well as its behaviour at higher energies agrees quite well with the theoretical calculations.

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