Study on photoluminescence of thermally treated Bi12GeO20 and Mo:Bi12GeO20 crystals

Abstract: Photoluminescence (PL) of Bi 12 GeO 20 and Mo doped Bi 12 GeO 20 (Mo: Bi 12 GeO 20 ) crystals in visible and near-infrared (NIR) spectral regions were studied. X-ray diffraction analysis, absorption and Raman scattering spectra of these crystals were also measured. Pure Bi 12 GeO 20 after annealing in N 2 atmosphere at 450 ºC and 550 °C show predominant emissions at about 745 and 1250 nm bands, while the emission peaks of Mo:Bi 12 GeO 20 crystals untreated or after annealing in Ar at 300 °C are at around 538 a… Show more

“…NIR luminescence with FWHM only 40 nm together with multiple emission peaks can be observed in BaB 1-1 sample in the present work, while one emission with superbroadband FWHM is observed in the other samples and in previous reports. The narrow near infrared fluorescence in Bi-doped materials was reported in the other works of our team [38,39] .…”

Near infrared luminescence of bismuth-doped MO-B2O3 (M=Ca, Sr, Ba) glasses

“…NIR luminescence with FWHM only 40 nm together with multiple emission peaks can be observed in BaB 1-1 sample in the present work, while one emission with superbroadband FWHM is observed in the other samples and in previous reports. The narrow near infrared fluorescence in Bi-doped materials was reported in the other works of our team [38,39] .…”

Near infrared luminescence of bismuth-doped MO-B2O3 (M=Ca, Sr, Ba) glasses

“…In conclusion, the results of our modeling of BiODCs in Bi 2 O 3 -GeO 2 and Bi 2 O 3 -SiO 2 hosts make it reasonable to suggest that the luminescence in the 1.2-1.3 µm range in Bi 2 O 3 -GeO 2 glasses [12-14, 16, 19] and crystals [17,18] is caused by = Bi · · · Ge ≡ center, an O vacancy between Bi and Ge atoms ( Fig. 1(a)).…”

Origin of near-IR luminescence in Bi_2O_3–GeO_2 and Bi_2O_3–SiO_2 glasses: first-principle study

“…Due to its photoconductivity, photochromism, photorefractivity, piezoelectricity, as well as to electro-optic and magneto-optic effects it supports [7,8], Bi 12 GeO 20 is suitable for a broad range of applications and devices such as optical limiting, holography, spatial light modulation, optical phase conjugation, optical memories, fiber optic sensors, Pockels cells [8][9][10][11][12]. The properties of non-doped as well as doped Bi 12 GeO 20 were investigated and reported in a number of studies, for example in [13][14][15][16][17][18][19][20][21]. Characteristics of Bi 12 GeO 20 single crystals after exposure to thermal treatment [16][17][18][19]22], to beams of electrons [23], uranium ions [24], fluorine ions [15], g-ray [19] or light [9,18,22,[25][26][27][28] were investigated.…”

“…The properties of non-doped as well as doped Bi 12 GeO 20 were investigated and reported in a number of studies, for example in [13][14][15][16][17][18][19][20][21]. Characteristics of Bi 12 GeO 20 single crystals after exposure to thermal treatment [16][17][18][19]22], to beams of electrons [23], uranium ions [24], fluorine ions [15], g-ray [19] or light [9,18,22,[25][26][27][28] were investigated. Nonlinear properties of Bi 12 GeO 20 crystals were measured with pulsed laser beams in the nanosecond range in [9], whereas in [26][27][28] BGO crystals were irradiated by picosecond laser pulses.…”

“…Nonlinear properties of Bi 12 GeO 20 crystals were measured with pulsed laser beams in the nanosecond range in [9], whereas in [26][27][28] BGO crystals were irradiated by picosecond laser pulses. Transmission, absorption [16,19], and Raman spectra [19] were found to be significantly influenced by doping and annealing. Thermally stimulated currents as a function of both the temperature at which the crystals are photoexcited and the density of energy used to photoexcite them were reported in [18].…”

Influence of femtosecond pulsed laser irradiation on bismuth germanium oxide single crystal properties