Luminescence of AgCl crystals at room temperature after ruby laser excitation

Emission spectrum of pure AgCl crystals at room temperature after ruby laser excitation was measured. The emission consists of a continuous fluorescence band with the maximum at about 460 nm which is at sufficiently high excitation intensities covered with characteristic line structure emission. The appearance of continous emission at this temperature was in accordance with experimental results explained by the increase of the radiative transition probability in AgCl crystals.     

Luminescence of complex organic molecules upon electron excitation

Pesults of investigation of the luminescence of complex organic compounds upon excitation with electrons of various energies are reported. Data on spectra of energy losses of electrons, fluorescence excitation cross sections and functions, fluorescence emission spectra, fluorescence kinetics, polarization, and energy yield, effects of impurity gases, and theoretical analysis of the processes taking place in the system are presented. Results of investigation of the luminescence of complex molecules in electric discharges (dc, pulsed, high-frequency, non-self-maintained, and plasma-beam) and in a condensed state (solutions, molecular crystals, and thin solid films) are discussed. Institute of Molecular and Atomic Physics, National Academy of Sciences of Belarus, 70, F. Skorina Ave., Minsk 220072, Belarus. Transtated from Zhurnal Prikladnoi Spektroskopii, Vol. 65, No. 5, pp. 694–708, September–October, 1998.     

Luminescence and the migration of the energy of electron excitation in stilbene crystals

The dependence of the quantum luminescence yields on the concentration of impurities in crystals of stilbene with admixtures of anthracene is investigated. On the basis of the experimental results a diffusion length is calculated for the excitons as well as the probability of their capture by impurity molecules.     

Energy yield of fluorescence of complex organic compounds upon electron excitation

With use of electron energy loss spectra for vapors of anthracene, perylene, 1,4[di(2,5-phenyloxazolyl)] benzene, and paratherphenyl the energy yields of fluorescence are calculated for electron collision. It is shown that they are considerably smaller than those for optical excitation conditions. Deceased Institute of Molecular and Atomic Physics of the National Academy of Sciences of Belarus, 70, F. Skorina Ave., Minsk, 220072, Belarus. Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 65, No. 1, pp. 146–148, January–February, 1998.     

Luminescence of organic molecules upon electric excitation

Report to the 13th Vavilov Lectures of the Academy of Sciencers of the USSR, March 23, 1988, Moscow.     

Luminescence of yttrium niobium-tantalate doubly activated by europium and/or terbium under X-ray and electron beam excitation

This paper reports the luminescence emission spectra of Y(Ta,Nb)O₄ activated by rare earth ions such as Eu³⁺ and Tb³⁺. The influence of these rare earth ions on the luminescence of yttrium niobium-tantalate phosphors was investigated. The luminescent properties were studied under X-ray and electron beam excitations. Under these excitations, the emission centers of the rare earth activators (Eu³⁺,Tb³⁺) were found to contribute efficiently to the overall luminescence. Changing the mol concentration of the incorporated activators resulted in a broad variation of visible photoluminescence. Color cathodoluminescence images showed clearly the dependence of chromaticity on the different activators. With their various luminescence chromaticities, these rare earth activated phosphors are promising materials for solid-state lighting applications as well as for X-ray intensifying screens in medical diagnosis, providing a broad variation of visible photoluminescence from blue to red.     

Stimulated infrared emission under excitation of condensed molecular dielectrics with giant pulses of a ruby laser

Stimulated infrared (IR) emission from a condensed dielectric medium under exposure to a giant pulse of a ruby laser is reported. This effect was predicted in the theoretical paper [1]. Experimental studies were carried out for a number of molecular liquids in two experimental geometries. In the first case (“in transmission” geometry) the propagation direction of the detected IR radiation coincided with that of the exciting radiation. In the second case IR radiation generated was detected in the opposite direction. The angle of divergence of IR radiation was found to be of 10⁻² rad, while the conversion efficiency with respect to the pumping intensity depended on the type of molecular liquid and varied in the range of 0.05–0.6%. Possible microscopic mechanisms of generation of IR radiation under pumping of the dielectric medium with visible or ultraviolet (UV) radiation are analyzed.     

Luminescence excitation spectra and characteristics of luminescence centers with overlapping absorption bands

For an ensemble of different types of luminescence centers with overlapping absorption bands, with no restrictions on the optical densities, we have obtained relations describing the luminescence excitation spectra for each type of center. We consider transformations of the relations in some limiting cases. We suggest a procedure for using the equations obtained to determine the characteristics of the luminescence centers. Some of these procedures have been experimentally implemented in study of intrinsic radiation color centers in lithium fluoride crystals. We have determined the ratios of the luminescence quantum yields for F₂ and F₃⁺ color centers, and we have observed that a major role is played by nonradiative transitions in deactivation of the first excited singlet state of F₃⁺ centers. __________ Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 75, No. 3, pp. 365–371, May–June, 2008.     

Ce激活氯化钠在真空紫外光激发下的发光性质

采用水热蒸发法制备了NaCl∶Ce3+荧光粉,并通过X射线衍射(XRD)研究了材料的晶体结构。测量并分析材料在室温下的真空紫外激发光谱及相应的发射光谱。结果表明309和324nm的发射峰,对应于Ce3+离子的5d→4f(2 F5/2,2 F7/2)跃迁;激发谱显示6个峰,峰位分别为148,190,205,216,232和247nm。148nm的激发峰是基质吸收引起的;190,205,216,232和247nm是Ce3+的4f→5d跃迁引起的。     

Luminescence from silicon-surface metallized by extremely high excitation

Time resolved spectra of photoluminescence in Si at 4.2K and 20K under high excitation levels by a Q-switched laser confirm that a new component exists at the higher energy side of the Haynes line. This component is ascribed to an electron-hole liquid phase extending uniformly over the crystal surface and having larger carrier concentration compared to the equilibrium electron-hole drop.     

Luminescence of some zirconium-containing compounds under vacuum ultraviolet excitation

Photoluminescence of compounds that contain stoichiometric zirconium has been studied under vacuum ultraviolet excitation. The compounds show emission peaking at 280-320 nm while the excitation spectra show some bands in 130-190 nm region. The ultraviolet emission is explained as Zr to O charge transfer transition. The luminescence result and structural information classify the studied compounds into two groups. The former group involves ZrP₂O₇, CaZr(PO₄)₂, NaZr₂(PO₄)₃, Ca₂ZrSi₄O₁₂, Ca₃ZrSi₂O₉ and SrZrSi₂O₇, which show rather intense luminescence and do not have any infinite Zr-O-Zr-O-3D chain or link in their structure. The latter group is CaZrO₃ and ZrSiO₄, which do contain infinite Zr-O-Zr-O-3D chain and show quite weak luminescence. Luminescence of Ca_1−xMn_xZr(PO₄)₂ has also been studied. By replacing a part of Ca with Mn, ultraviolet emission of the host weakens and visible emission peaking at 540 nm appears. It is claimed that transfer of absorbed energy from Zr to Mn occurs.