Optical Properties of Rare‐Earth Ions in Lead Germanate Glasses

Wachtler, Mario; Speghini, Adolfo; Gatterer, Karl; Fritzer, Harald P.; Ajò, D.; Bettinelli, Marco

doi:10.1111/j.1151-2916.1998.tb02586.x

Cited by 135 publications

(61 citation statements)

References 37 publications

(51 reference statements)

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“…If one employs a least-squares fitting of calculated and experimental oscillator strengths, the Judd-Ofelt parameters obtained for this glass are ⍀ 2 ϭ 6.64 ϫ 10 Ϫ20 cm 2 , ⍀ 4 ϭ 1.52 ϫ 10 Ϫ20 cm 2 , and ⍀ 6 ϭ 0.97 ϫ 10 Ϫ20 cm 2 , with a root-mean-square deviation equal to 2.62 ϫ 10 Ϫ7 . These values are in agreement with those previously reported in binary lead-germanate glasses 9 and in leadtellurium-germanate-based glasses. 21 The radiative transition probabilities for all excited levels of Er 3ϩ can be calculated by using the Judd-Ofelt parameters.…”

Section: A Absorption and Emission Propertiessupporting

confidence: 93%

“…5,6 Among oxide glasses, lead-germanate-based glasses combine high mechanical strength, high chemical durability, and temperature stability with good transmission in the IR region 7 up to 5.5 m, which make them promising materials for technological applications such as new lasing materials, upconverting phosphors, and optical waveguides. [8][9][10][11][12] These glasses have smaller maximum vibrational frequencies than those shown by silicate, phosphate, and borate glasses. 7,8 The reduced phonon energy increases the quantum efficiency of luminescence from excited states of rare-earth ions and the upconversion efficiency.…”

Section: Introductionmentioning

confidence: 99%

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Infrared-to-visible upconversion of Er^3+ ions in GeO_2–PbO–Nb_2O_5 glasses

et al. 2004

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We report the infrared-to-visible upconversion luminescence of Er 3ϩ -doped lead-niobium-germanate glasses (GeO 2 -PbO-Nb 2 O 5 ) with different Er 2 O 3 concentrations (0.5, 1, 2, and 3 wt.%) under continuous-wave and pulsed-laser excitation in the near-infrared region inside the 4 I 9/2 level. Intense green emission due to the ( 2 H 11/2 , 4 S 3/2 ) → 4 I 15/2 transitions was observed at room temperature together with a weak red emission corresponding to the 4 F 9/2 → 4 I 15/2 transition. These upconversion emissions are attributed to a two-photon process. The time evolution of the green emission from the 4 S 3/2 level indicates that energy-transfer upconversion and excited-state absorption are responsible for the upconversion luminescence. The increase of the weak red emission with increasing Er 2 O 3 concentration, together with its temporal behavior under infrared excitation, suggests that for Er 2 O 3 concentrations higher than 1 wt.%, the upconverted red emission is the result of multiphonon relaxation from the 4 S 3/2 level and energy-transfer processes.

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Section: A Absorption and Emission Propertiessupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Infrared-to-visible upconversion of Er^3+ ions in GeO_2–PbO–Nb_2O_5 glasses

et al. 2004

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“…Overall, the Judd-Ofelt parameters shown in table 2 for Tm:germanate glasses show the trend Ω 2 > Ω 4 > Ω 6. The exception seems to be the study by Wachtler [12], where the Ω 4 is unusually low. The most likely reason for this is a poor fit to the experimental absorption data.…”

Section: Discussionmentioning

confidence: 98%

“…In practice, the Judd-Ofelt theory has been used with great success to determine branching rations and lifetimes in a great number of ion-host systems. The set of phenomenological parameters, Ω λ (λ = 2, 4, 6), determined by fitting the experimental absorption, in a least squares difference sum, with the Judd-Ofelt expression are shown in table 2 and are compared with the parameters obtained in five other studies [4,6,7,12,13]. Overall, the Judd-Ofelt parameters shown in table 2 for Tm:germanate glasses show the trend Ω 2 > Ω 4 > Ω 6.…”

Section: Discussionmentioning

confidence: 99%

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Optical properties of Tm3+ ions in alkali germanate glass

Walsh

Barnes

Reichle

et al. 2006

Journal of Non-Crystalline Solids

103

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Tm-doped alkali germanate glass is investigated for use as a laser material. Spectroscopic investigations of bulk Tm-doped germanate glass are reported for the absorption, emission and luminescence decay. Tm:germanate shows promise as a fiber laser when pumped with 0.792 μm diodes because of low phonon energies. Spectroscopic analysis indicates low nonradiative quenching and pulsed laser performance studies confirm this prediction by showing a quantum efficiency of 1.69.

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