Optical scattering in glass ceramics

Edgar, A.; Williams, G. V. M.; Hamelin, J.

doi:10.1016/j.cap.2005.11.018

Cited by 35 publications

(42 citation statements)

References 7 publications

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“…As far as concerns scattering attenuation, it is important to note that the transparency of glass-ceramics is higher than that expected from the theory of Rayleigh scattering. Edgar et al measured the optical extinction coefficient for fluorozirconate glass-ceramics containing BaCl 2 nanoparticles and found that glass-ceramics were about a factor of six more transparent than predicted by Rayleigh scattering theory [27]. Looking at the general criteria given above, the main reason of such behavior appears to be related to the spatial arrangement and the consequent interference pattern of the scattered light [26].…”

Section: Rare Earth-doped Transparent Glass Ceramicsmentioning

confidence: 97%

Red photonic glasses and confined structures

Gonçalves¹,

Łukowiak²,

Ristić³

et al. 2014

Bulletin of the Polish Academy of Sciences Technical Sciences

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Abstract. We present some recent results obtained by our team in rare earth doped photonic glasses and confined structures, in order to give some highlights regarding the state of art in glass photonics. To evidence the unique properties of transparent glass ceramics we compare spectroscopic and structural properties between the parent glass and the glass ceramics. Starting from planar waveguides we move to spherical microresonators, a very interesting class of photonic confined structures. We also conclude the short review with some remarks about the perspective for glass photonics.

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Section: Rare Earth-doped Transparent Glass Ceramicsmentioning

confidence: 97%

Red photonic glasses and confined structures

Gonçalves¹,

Łukowiak²,

Ristić³

et al. 2014

Bulletin of the Polish Academy of Sciences Technical Sciences

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“…Then the turbidity for the luminescent glass with nano-crystal number density N can be calculated with Eqs. (12)- (14) and (15) (18) show that no matter the incident light is polarized or not, the turbidity for nano-crystal luminescent glass has k 8 R 10 dependence. With Eqs.…”

Section: Fig2 Scattering Intensity Versus the Scattering Angle In Namentioning

confidence: 97%

“…Specifically, Hendy [13] found k 8 R 7 dependence of the scattering turbidity, where k and R are the wave-number and the average crystal radius respectively. Edgar [14,15] proposed a light scattering model in glass ceramics based on the core-shell particle model and Rayleigh-Debye approximation, revealing a series of abnormal phenomena involved in this kind of glass ceramics.However, only the non-polarized incident light has been considered in all these approaches. Indeed, the polarized light emitted from the InGaN/GaN light emitting diodes (LEDs) has been proposed and experimentally confirmed by Schubert group [16] , which is of importance in many applications such as sensing, imaging and liquid crystal backlighting [17] .…”

mentioning

confidence: 99%

mentioning

confidence: 99%

“…In this paper, taking into account of the incident polarization light, we employ Rayleigh-Debye formula to obtain the scattering turbidity with wavelength of incident light, radii and refractive index of nano-crystals. We assume that the nanometer phosphor particles are embedded in parent glass uniformly in spherical core-shell structure [14,15] , which has been precipitated by nucleation and grain growth with melt cooling-heat-treating procedure. Upon nucleation, the crystallite atoms and the primitive atoms are located in the grown crystal and then mutually diffuse within a certain volume.…”

mentioning

confidence: 99%

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Influence of blue-light polarization on light scattering in nanocrystal luminescent glass for white light-emitting-diodes

Zhang

Zhong

et al. 2010

Optoelectron. Lett.

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The influence of the polarized state of blue light on light scattering in InGaN blue chip nano-crystal luminescent glass for solid state lighting is investigated. Based on Rayleigh-Debye approximation theory, theoretical relationships between the light scattering turbidity and wavelength of the incident light, radius and refractive index of the nano-crystals are established to simulate the situations in yttrium aluminate garnet (YAG), silicate and oxynitride based luminescence glass. It is revealed that the scattering turbidity in luminescent glass turns to be the smallest as the effective refractive index of nanocrystals is equal to that of parent glass, and the scattering turbidity for the vertically polarized incident light is greater than that for the un-polarized incident light, while that for the horizontally polarized incident light is smaller than that for the unpolarized incident light under the same conditions. The present combination of InGaN/YAG: Ce 3+ type phosphorconverted white-light generally adopts a pattern with epoxy resin or silicone encapsulation, easily leading to unmatched refractive index between inhomogeneous materials, a lower efficiency of light extraction, degradation of materials and shift of light color as well. To solve these problems, photonic crystals [1][2][3] , transparency glass ceramics and nano-crystal luminescent glass [4,5] are considered to be candidates. We have proposed a technical route by using nanocrystalized luminescent glass as light guide materials, in which both luminescence and transparence have to be taken into account.Many approaches for light scattering in glass ceramics have been extensively done [6][7][8][9][10][11] and halide based systems were often concerned [6,11,12] . Specifically, Hendy [13] found k 8 R 7 dependence of the scattering turbidity, where k and R are the wave-number and the average crystal radius respectively. Edgar [14,15] proposed a light scattering model in glass ceramics based on the core-shell particle model and Rayleigh-Debye approximation, revealing a series of abnormal phenomena involved in this kind of glass ceramics.However, only the non-polarized incident light has been considered in all these approaches. Indeed, the polarized light emitted from the InGaN/GaN light emitting diodes (LEDs) has been proposed and experimentally confirmed by Schubert group [16] , which is of importance in many applications such as sensing, imaging and liquid crystal backlighting [17] . In this paper, taking into account of the incident polarization light, we employ Rayleigh-Debye formula to obtain the scattering turbidity with wavelength of incident light, radii and refractive index of nano-crystals. We assume that the nanometer phosphor particles are embedded in parent glass uniformly in spherical core-shell structure [14,15] , which has been precipitated by nucleation and grain growth with melt cooling-heat-treating procedure. Upon nucleation, the crystallite atoms and the primitive atoms are located in the grown crystal and then mutually diffuse wi...

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Optical Properties of Glasses

Edgar

2019

Optical Properties of Materials and Their Applications

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Optical scattering in glass ceramics

Cited by 35 publications

References 7 publications

Red photonic glasses and confined structures

Red photonic glasses and confined structures

Influence of blue-light polarization on light scattering in nanocrystal luminescent glass for white light-emitting-diodes

Optical Properties of Glasses

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