All Stories

  1. Ratiometric luminescent thermometry for the third bioimaging window by Er3+ doped garnet with large Stark splitting
  2. Hole Detrapping-Type Persistent Phosphors of RE2O2S (RE = La, Gd, Y, Lu) Doped with Eu3+–Pr3+ and Eu3+–Tb3+
  3. Addressing Current Challenges in OSL Dosimetry Using MgB4O7:Ce,Li: State of the Art, Limitations and Avenues of Research
  4. Highly Thermal Stable Broadband Near-Infrared Luminescence in Ni2+-Doped LaAlO3 with Charge Compensator
  5. Photochromism and Long Persistent Luminescence in Pr3+‐Doped Garnet Transparent Ceramic via UV or Blue Light Up‐Conversion Charging
  6. Toward color variation of long persistent luminescence in Pr3+-doped garnet transparent ceramic phosphors
  7. Thermochromic Narrow Band Gap Phosphors for Multimodal Optical Thermometry: The Case of Y3+-Stabilized β-Bi2O3:Nd3+
  8. Pressure-dependent photoluminescence of Eu-activated aluminate hydride Sr3−xAxAlO4H:Eu2+ (A = Ca, Ba; x = 0, 1): Application of advanced U-determination technique for lumine...
  9. Reversible Phase Segregation and Amorphization of Mixed-Halide Perovskite Nanocrystals in Glass Matrices
  10. Self‐Straining Nanocrystals Strategy: Temperature and Pressure Co‐Induced Phase Transitions of CsPbBr3 in Amorphous Matrices
  11. Effect of Glass Composition on Luminescence and Structure of CsPbBr3 Quantum Dots in an Amorphous Matrix
  12. In Situ Growth Mechanism of CsPbX3 (X = Cl, Br, and I) Quantum Dots in an Amorphous Oxide Matrix
  13. Blue Persistent Phosphor of YSiO2N:Ce3+ Developed by Codoping Sm3+ or Tm3+ Ions and Thermoluminescence Analysis of Their Trap Distributions
  14. Characterization of the charge transfer luminescence of the [WO6]6− octahedron in Ca3WO6 and the [WO5]4− square pyramid in Ca3WO5Cl2
  15. Deep-red to near-infrared luminescence from Eu2+-trapped exciton states in YSiO2N
  16. Photoluminescent coordination polymer bulk glasses and laser-induced crystallization
  17. High-Pressure Photoluminescence Properties of Cr3+-Doped LaGaO3Perovskites Modulated by Pressure-Induced Phase Transition
  18. How Many Electron Traps are formed in Persistent Phosphors?
  19. Difference of Eu3+ luminescent properties in YOCl and YOBr oxyhalide hosts
  20. Predicting the Optical Pressure Sensitivity of 2E → 4A2 Spin-Flip Transition in Cr3+-Doped Crystals
  21. Boltzmann Thermometry in Cr3+‐Doped Ga2O3 Polymorphs: The Structure Matters!
  22. Development of White Persistent Phosphors by Manipulating Lanthanide Ions in Gadolinium Gallium Garnets
  23. Formation of PbCl2-type AHF (A = Ca, Sr, Ba) with partial anion order at high pressure
  24. Microsized Red Luminescent MgAl2O4:Mn4+ Single-Crystal Phosphor Grown in Molten Salt for White LEDs
  25. Confined-Melting-Assisted Synthesis of Bismuth Silicate Glass-Ceramic Nanoparticles: Formation and Optical Thermometry Investigation
  26. Pushing the Limit of Boltzmann Distribution in Cr3+-Doped CaHfO3 for Cryogenic Thermometry
  27. Large red-shift of luminescence from BaCN2:Eu2+ red phosphor under high pressure
  28. Effective Ratiometric Luminescent Thermal Sensor by Cr3+‐Doped Mullite Bi2Al4O9 with Robust and Reliable Performances
  29. Lanthanide-Doped Bi2SiO5@SiO2 Core–Shell Upconverting Nanoparticles for Stable Ratiometric Optical Thermometry
  30. Downconversion for 1 μm luminescence in lanthanide and Yb3+ co-doped phosphors
  31. Hexagonal Sr1−x/2Al2−xSixO4:Eu2+,Dy3+transparent ceramics with tuneable persistent luminescence properties
  32. Pressure-induced variation of persistent luminescence characteristics in Y3Al5−xGaxO12:Ce3+–M3+(M = Yb, and Cr) phosphors: opposite trend of trap depth for 4f and 3d metal ions
  33. Red luminescent Eu2+ in K2MgH4 and comparison with KMgH3
  34. Ultrabroadband red luminescence of Mn4+in MgAl2O4peaking at 651 nm
  35. Upconversion-mediated Boltzmann thermometry in double-layered Bi2SiO5:Yb3+,Tm3+@SiO2 hollow nanoparticles
  36. Orange Persistent Luminescence and Photodarkening Related to Paramagnetic Defects of Nondoped CaO-Ga2O3-GeO2 Glass
  37. Ratiometric Luminescent Thermometers with a Customized Phase-Transition-Driven Fingerprint in Perovskite Oxides
  38. Lanthanide-Doped Bismuth-Based Fluoride Nanocrystalline Particles: Formation, Spectroscopic Investigation, and Chemical Stability
  39. Uncovering the Origin of the Emitting States in Bi3+-Activated CaMO3 (M = Zr, Sn, Ti) Perovskites: Metal-To-Metal Charge Transfer Versus s–p Transitions
  40. Synthesis, optical properties, and band structures of a series of layered mixed-anion compounds
  41. Long persistent luminescence and blue photochromism in Eu2+-Dy3+ co-doped barium silicate glass ceramic phosphor
  42. 1.5μm persistent luminescence of Er3+ in Gd3Al5-xGaxO12 (GAGG) garnets via persistent energy transfer
  43. Persistent luminescence instead of phosphorescence: History, mechanism, and perspective
  44. Broadband near-infrared persistent luminescence of Ba[Mg2Al2N4] with Eu2+ and Tm3+ after red light charging
  45. Crystal structure analysis and evidence of mixed anion coordination at the Ce3+ site in Y3Al2(Al,Si)3(O,N)12 oxynitride garnet phosphor
  46. Facile p–n control, and magnetic and thermoelectric properties of chromium selenides Cr2+xSe3
  47. Intense deep-red zero phonon line emission of Mn4+ in double perovskite La4Ti3O12
  48. Persistent energy transfer in ZGO:Cr3+,Yb3+: a new strategy to design nano glass-ceramics featuring deep red and near infrared persistent luminescence
  49. Redshift and thermal quenching of Ce3+ emission in (Gd, Y)3(Al, Si)5(O, N)12 oxynitride garnet phosphors
  50. Reply to the ‘Comment on “Spectroscopic properties and location of the Ce3+ energy levels in Y3Al2Ga3O12 and Y3Ga5O12 at ambient and high hydrostatic pressure”’ by ...
  51. (INVITED) Review of luminescent properties of Ce3+-doped garnet phosphors: New insight into the effect of crystal and electronic structure
  52. Ratiometric optical thermometry using deep red luminescence from 4T2 and 2E states of Cr3+ in ZnGa2O4 host
  53. Revisiting Cr3+-Doped Bi2Ga4O9 Spectroscopy: Crystal Field Effect and Optical Thermometric Behavior of Near-Infrared-Emitting Singly-Activated Phosphors
  54. Tunable trap depth for persistent luminescence by cationic substitution in Pr 3+ :K 1− x Na x NbO...
  55. LaAlO3:Cr3+, Sm3+: Nano-perovskite with persistent luminescence for in vivo optical imaging
  56. Development of persistent phosphor of Eu2+ doped Ba2SiO4 by Er3+ codoping based on vacuum referred binding energy diagram
  57. Luminescence properties of layered mixed-anion compounds Sr2ScCuSeO3 and Sr3Sc2Cu2Se2O5
  58. Intense hypersensitive luminescence of Eu3+-doped YSiO2N oxynitride with near-UV excitation
  59. Rapid deposition and thermoelectric properties of ytterbium boride thin films using hybrid physical chemical vapor deposition
  60. Local coordination, electronic structure, and thermal quenching of Ce3+ in isostructural Sr2GdAlO5 and Sr3AlO4F phosphors
  61. Tailoring Trap Depth and Emission Wavelength in Y3Al5–xGaxO12:Ce3+,V3+Phosphor-in-Glass Films for Optical Information Storage
  62. Investigation of luminescence quenching and persistent luminescence in Ce3+ doped (Gd,Y)3(Al,Ga)5O12 garnet using vacuum referred binding energy diagram
  63. Formation of Deep Electron Traps by Yb3+ Codoping Leads to Super-Long Persistent Luminescence in Ce3+-Doped Yttrium Aluminum Gallium Garnet Phosphors
  64. Enhanced persistent red luminescence in Mn2+-doped (Mg,Zn)GeO3 by electron trap and conduction band engineering
  65. Toward Rechargeable Persistent Luminescence for the First and Third Biological Windows via Persistent Energy Transfer and Electron Trap Redistribution
  66. First‐principles and crystal‐field calculations of the electronic and optical properties of two novel red phosphors Rb2HfF6:Mn4+ and Cs2HfF6:Mn4+
  67. 1.2 μm persistent luminescence of Ho3+ in LaAlO3 and LaGaO3 perovskites
  68. Comparison of quenching mechanisms in Gd3Al5−xGaxO12:Ce3+ (x = 3 and 5) garnet phosphors by photocurrent excitation spectroscopy
  69. Preparation, electronic structure of gadolinium oxyhydride and low-energy 5d excitation band for green luminescence of doped Tb3+ ions
  70. Red-emission over a wide range of wavelengths at various temperatures from tetragonal BaCN2:Eu2+
  71. Vacuum referred binding energy of 3d transition metal ions for persistent and photostimulated luminescence phosphors of cerium-doped garnets
  72. Thermal Quenching Mechanism of CaAlSiN3:Eu2+ Red Phosphor
  73. Red persistent luminescence in rare earth-free AlN:Mn2+ phosphor
  74. Vacuum Referred Binding Energy (VRBE)-Guided Design of Orange Persistent Ca3Si2O7:Eu2+ Phosphors
  75. Evidence of valence state change of Ce^3+ and Cr^3+ during UV charging process in Y_3Al_2Ga_3O_12 persistent phosphors
  76. Toward tunable and bright deep‐red persistent luminescence of Cr3+ in garnets
  77. Thermoluminescence investigation on Y 3 Al 5 −x Ga x O 12 :Ce 3+ -Bi 3+ green persistent phosphors
  78. Optical properties and mechanisms in Cr3+, Bi3+-codoped oxide-based spinel nanoparticles
  79. Thermal ionization and thermally activated crossover quenching processes for5d−4f
  80. Cr3+/Er3+ co-doped LaAlO3 perovskite phosphor: a near-infrared persistent luminescence probe covering the first and third biological windows
  81. The role of Ln3+ (Ln = Eu, Yb) in persistent red luminescence in MgGeO3:Mn2+
  82. Trap depth and color variation of Ce3+-Cr3+ co-doped Gd3(Al,Ga)5O12 garnet persistent phosphors
  83. Ratiometric Optical Thermometer Based on Dual Near-Infrared Emission in Cr3+-Doped Bismuth-Based Gallate Host
  84. Study on Trap Levels in SrSi2AlO2N3:Eu2+,Ln3+ Persistent Phosphors Based on Host-Referred Binding Energy Scheme and Thermoluminescence Analysis
  85. Scintillation and optical properties of Ce-doped YAGG transparent ceramics
  86. A Comparison on Ce3+ Luminescence in Borate Glass and YAG Ceramic: Understanding the Role of Host’s Characteristics
  87. Persistent luminescence properties of Cr^3+-Sm^3+ activated LaAlO_3 perovskite
  88. Feature issue introduction: persistent and photostimulable phosphors – an established research field with clear challenges ahead
  89. Photostimulation induced persistent luminescence in Y_3Al_2Ga_3O_12:Cr^3+
  90. Significance of host׳s intrinsic absorption band tailing on Ce3+ luminescence quantum yield in borate glass
  91. Special Issue on Light, Energy and Life
  92. Comparative study of optical and scintillation properties of Ce:YAGG, Ce:GAGG and Ce:LuAGG transparent ceramics
  93. Effect of synthesis conditions on Ce3+ luminescence in borate glasses
  94. Near-infrared long persistent luminescence of Er3+ in garnet for the third bio-imaging window
  95. Novel persistent phosphors of lanthanide–chromium co-doped yttrium aluminum gallium garnet: design concept with vacuum referred binding energy diagram
  96. Optical and scintillation properties of Ce-doped 34Li2O–5MgO–10Al2O3–51SiO2 glass
  97. Spectroscopic properties and location of the Ce3+ energy levels in Y3Al2Ga3O12 and Y3Ga5O12 at ambient and high hydrostatic pressure
  98. Insight into the Thermal Quenching Mechanism for Y3Al5O12:Ce3+ through Thermoluminescence Excitation Spectroscopy
  99. Glass‐Ceramics and Solid‐State Lighting
  100. Glass and Rare-Earth Elements: A Personal Perspective
  101. Near-infrared multi-wavelengths long persistent luminescence of Nd3+ ion through persistent energy transfer in Ce3+, Cr3+ co-doped Y3Al2Ga3O12 for the first and second bio-imaging windows
  102. Fabrication of Ce3+–Cr3+ co-doped yttrium aluminium gallium garnet transparent ceramic phosphors with super long persistent luminescence
  103. Experimental insights on the electron transfer and energy transfer processes between Ce3+-Yb3+ and Ce3+-Tb3+ in borate glass
  104. Y3Al5−xGaxO12:Cr3+: A novel red persistent phosphor with high brightness
  105. Evidence of three different Eu2+ sites and their luminescence quenching processes in CaAl2O4:Eu2+
  106. Control of electron transfer between Ce3+ and Cr3+ in the Y3Al5−xGaxO12 host via conduction band engineering
  107. Deep-red persistent luminescence in Cr 3+ -doped LaAlO 3 perovskite phosphor for in vivo imaging
  108. RPL in alpha particle irradiated Ag+-doped phosphate glass
  109. Enhanced Light Storage of SrAl2O4Glass-Ceramics Controlled by Selective Europium Reduction
  110. A brief review on red to near-infrared persistent luminescence in transition-metal-activated phosphors
  111. Wavelength Tailorability of Broadband Near‐Infrared Luminescence in Cr4+‐Activated Transparent Glass‐Ceramics
  112. Optical excitation and external photoluminescence quantum efficiency of Eu3+ in GaN
  113. Yellow persistent luminescence in Ce3+–Cr3+-codoped gadolinium aluminum gallium garnet transparent ceramics after blue-light excitation
  114. Samarium-Doped Oxyfluoride Glass-Ceramic as a New Fast Erasable Dosimetric Detector Material for Microbeam Radiation Cancer Therapy Applications at the Canadian Synchrotron
  115. Photo-electronic properties and persistent luminescence in Pr3+ doped (Ca,Sr)TiO3 ceramics
  116. Bright persistent ceramic phosphors of Ce3+-Cr3+-codoped garnet able to store by blue light
  117. Development of blue excitable persistent phosphor of Ce3+-doped garnet ceramics by bandgap engineering and metal sensitization
  118. Recreating the Lycurgus effect from silver nanoparticles in solutions and in silica gel
  119. Band-gap variation and a self-redox effect induced by compositional deviation in ZnxGa2O3+x:Cr3+ persistent phosphors
  120. Modulation of the optical properties of Pr<sup>3+</sup>-doped Y<sub>2</sub>O<sub>3</sub> ceramics by Zr doping
  121. Preface: Photoluminescence in rare earths: Photonic materials and devices
  122. Temperature and compositional dependence of optical and optoelectronic properties in Ce3+-doped Y3Sc2Al3−xGaxO12 (x=0, 1, 2, 3)
  123. Conversion of Valence State and Coordination State of Fe in Transparent Glass‐Ceramics Containing Li2ZnSiO4 Nanocrystals
  124. Photochromism and near-infrared persistent luminescence in Eu^2+-Nd^3+-co-doped CaAl_2O_4 ceramics
  125. Enhancement of Red Persistent Luminescence in Cr3+-Doped ZnGa2O4Phosphors by Bi2O3Codoping
  126. Mechanism of quantum cutting in Pr3+–Yb3+ codoped oxyfluoride glass ceramics
  127. Tunable trap depth in Zn(Ga1−xAlx)2O4:Cr,Bi red persistent phosphors: considerations of high-temperature persistent luminescence and photostimulated persistent luminescence
  128. Preface: Optical, Optoelectronic and Photonic Materials and Applications
  129. Optical and optoelectronic analysis of persistent luminescence in Eu2+‐Dy3+ codoped SrAl2O4 ceramic phosphor
  130. Optical and optoelectronic properties of Ce3+ doped Mg3Y2(Ge,Si)3O12 inverse garnet
  131. Interactive energy transfer between Cu2+ and Yb3+ in Ca1‐xCuSi4O10: Ybx
  132. Forward and back energy transfer between Cu2+ and Yb3+ in Ca1−xCuSi4O10:Ybx crystals
  133. Photochromism and white long-lasting persistent luminescence in Bi^3+-doped ZnGa_2O_4 ceramics
  134. Broadband spectral conversion due to cooperative and phonon-assistant energy transfer from ZnO to Yb3+
  135. Excited state dynamics and energy transfer rates in Sr3Tb0.90Eu0.10(PO4)3
  136. Broadband near ultra violet sensitization of 1 μm luminescence in Yb3+-doped CeO2 crystal
  137. Analysis of Ce3+ luminescence quenching in solid solutions between Y3Al5O12 and Y3Ga5O12 by temperature dependence of photoconductivity measurement
  138. Sensitization mechanisms of 1 µm luminescence in Tb3+–Yb3+ co‐doped borate glasses
  139. Down conversion luminescence of Tb3+–Yb3+ codoped SrF2 precipitated glass ceramics
  140. Afterglow characteristics of CaTiO3: Pr3+prepared by solar furnace
  141. Preparation of glass ceramics containing ruby crystals
  142. Spectral Properties of ZnO-LiYbO2Hybrid Phosphor for Silicon Solar Cell
  143. Properties of transparent Ce:YAG ceramic phosphors for white LED
  144. Fabrication of Eu:SrAl2O4-based glass ceramics using Frozen sorbet method
  145. Energy transfer processes in Sr3Tb0.90Eu0.10(PO4)3
  146. Near infrared downconversion in Pr3+–Yb3+ codoped oxyfluoride glass ceramics
  147. Simultaneous Tailoring of Phase Evolution and Dopant Distribution in the Glassy Phase for Controllable Luminescence
  148. Preparation and Optical Property of Glass Ceramics Containing Ruby Crystals
  149. Fabrication, microstructure and optical properties of Er3+:YAG glass–ceramics
  150. Studies on the lateral emission of erbium-doped fiber amplifiers
  151. Spectroscopy and 1μm Luminescence by Visible Quantum Cutting in Pr3+-Yb3+ Codoped Glass
  152. Construction of photoconductivity measurement system as functions of excitation wavelength and temperature: application to Eu2+-activated phosphors
  153. Influence of light scattering on luminous efficacy in Ce:YAG glass-ceramic phosphor
  154. Thermal Quenching of Ce3+:Y3Al5O12Glass-Ceramic Phosphor
  155. Surface plasmon excited infrared-to-visible upconversion in Er3+-doped transparent glass ceramics
  156. Visible to near infrared conversion in Ce3+–Yb3+ Co-doped YAG ceramics
  157. Thermal quenching of Ce<sup>3+</sup>: YAG glass-ceramic phosphor
  158. Visible to near infrared conversion in Ce<sup>3+</sup>-Yb<sup>3+</sup> Co-doped YAG ceramics
  159. Preface
  160. Novel $\hbox{Eu}^{{2+}}$-Activated Glass Ceramics Precipitated With Green and Red Phosphors for High-Power White LED
  161. Preparation and Luminescence Properties of Glass Ceramics Precipitated With $\hbox{M}_{\bf 2}\hbox{MgSi}_{\bf 2}\hbox{O}_{\bf 7}{:}\,\hbox{Eu}^{\bf 2+}$ (M = Sr, Ca) Phosphor for White Light Source
  162. Preparation and luminescent properties of Eu2+‐activated glass ceramic phosphor precipitated with β‐Ca2SiO4 and Ca3Si2O7
  163. Surface plasmon excited fluorescence of Er3+-Doped Y2O3thin film fabricated by Pulsed Laser Deposition
  164. Quantitative analysis of optical power budget of bismuth oxide-based erbium-doped fiber
  165. Accurate Measurement of Quantum Yields for Visible Emission Transitions of Sm3+
  166. Introduction to the Issue on Organic and Inorganic Photonic Materials
  167. Luminescence Characteristics of YAG Glass–Ceramic Phosphor for White LED
  168. Near-infrared emissions and quantum efficiencies in Tm3+-doped heavy metal gallate glasses for S- and U-band amplifiers and 1.8μm infrared laser
  169. Preparation and optical properties of Eu2+ and Sm3+ co-doped glass ceramic phosphors emitting white color by violet laser excitation
  170. Preparation of BaSi2O5:Eu2+ Glass Ceramic Phosphors and Luminescent Properties
  171. Structural evolution of Er3+ ions in Li2O-Al2O3-SiO2 glass-ceramics
  172. Study on Upconversion Characteristics of Silica-Based Erbium-Doped Fibers Using Integrating Sphere
  173. Derivation of quantum yields for visible emission transitions of Sm3+ in heavy metal tellurite glass
  174. Spectral power distribution and quantum yields of Sm3+-doped heavy metal tellurite glass under the pumping of blue lighting emitting diode
  175. Effects of Lanthanum and Boron Addition on Suppression of Cooperative Upconversion in Bismuth Oxide-Based Erbium-Doped Fibers
  176. Near-infrared emissions with widely different widths in two kinds of Er3+-doped oxide glasses with high refractive indices and low phonon energies
  177. Preparation and 1.3 .MU.m Emission of Pr3+ Doped Transparent Nano-Glass Ceramics Containing SrF2
  178. Optical parameters and upconversion fluorescence in Tm3+/Yb3+-doped alkali-barium-bismuth-tellurite glasses
  179. Infrequent blue and green emission transitions from Eu3+ in heavy metal tellurite glasses with low phonon energy
  180. Fabrication of Optically Active Er3+-Doped Bi2O3–SiO2 Glass Thin Films by Pulsed Laser Deposition
  181. High-performance and wideband amplifier using bismuth-oxide-based EDF with cascade configurations
  182. Novel Oxide Glass and Glass Ceramic Materials for Optical Amplifier
  183. Glass Ceramics for Solid State Lighting
  184. Evaluation of quenching effect on gain characteristics in silica-based erbium doped fiber using numerical simulation
  185. Fabrication and blue upconversion characteristics of Tm-doped tellurite fiber for S-band amplifier
  186. Infrared-to-visible upconversion of rare-earth doped glass ceramics containing CaF2 crystals
  187. Optical properties and local structure of rare-earth-doped amplifier for broadband telecommunication
  188. Variation of emission spectra of Er3+-doped YAG-based solid solution
  189. Investigation of Side Spontaneous Emission of Silica-based Erbium Doped Fibers by Integrating Sphere
  190. Properties of Tm3+‐Doped Germanotellurite Glasses for S‐Band Amplifier
  191. Fabrication and Efficient Infrared‐to‐Visible Upconversion in Transparent Glass Ceramics of Er–Yb Co‐Doped CaF2 Nano‐Crystals
  192. YAG glass-ceramic phosphor for white LED (II): luminescence characteristics
  193. Study on the dynamics of a gain spectral hole in silica-based erbium-doped fiber at 77 K
  194. Compositional Dependence of Fluorescence Spectra of Cr3+/Cr4+-Doped Calcium Alumino-Silicate Glasses for Broadband Telecommunication
  195. Correlation between Emission Bandwidth of Er3+: 1.5 .MU.m Band and Optical Basicity of Host Oxide Glasses
  196. Effect of erbium ion concentration on gain spectral hole burning in silica-based erbium-doped fiber
  197. Optical-telecommunication-band fluorescence properties of Er3+-doped YAG nanocrystals synthesized by glycothermal method
  198. Origin of multi-hole structure in gain spectrum of erbium-doped fiber amplifier
  199. Evidence of enhanced hypersensitive transition in erbium-doped fibers with different Al/sub 2/O/sub 3/ content
  200. Phase-selective cathodoluminescence spectroscopy of Er:YAG glass-ceramics
  201. Gain characteristics of Tm-doped fiber amplifier by dual-wavelength pumping with a tunable L-band source
  202. Novel amplifier glasses for broad-band WDM telecommunication
  203. Comparison of gain characteristics of Tm-doped fiber amplifier by different pumping schemes
  204. Rare-earth-doped glasses for fiber amplifiers in broadband telecommunication
  205. Spectroscopy and crystal-field analysis for Cr(IV) in alumino-silicate glasses
  206. Fluorescence properties of Er3+ ions in glass ceramics containing LaF3 nanocrystals
  207. Bi 2 O 3 -based glass for S-band amplification
  208. Physical Properties and Structure of rf‐Sputtered Amorphous Films in the System Al2O3–Y2O3
  209. Improved Fluorescence from Tm‐Ho‐ and Tm‐Ho‐Eu‐Codoped Transparent PbF2 Glass‐Ceramics for S+‐Band Amplifiers
  210. Concentration Dependence of Emission Properties of Tm3+-Doped Tellurite Glasses in Telecommunication Wavelength Region.
  211. Spectroscopic properties of erbium-doped ultraphosphate glasses for 1.5 μm amplification
  212. Hydroxyl groups in erbium-doped germanotellurite glasses
  213. 1.4 μm band emission properties of Tm3+ ions in transparent glass ceramics containing PbF2 nanocrystals for S-band amplifier
  214. Spectroscopic Properties and Thermal Stability of Er3+‐Doped Germanotellurite Glasses for Broadband Fiber Amplifiers
  215. Energy transfer and 1.3 μm emission in Pr–Yb codoped tellurite glasses
  216. Temperature variation of near-infrared emission from Cr4+ in aluminate glass for broadband telecommunication
  217. Improved emission of Tm^3+-doped glass for a 14-µm amplifier by radiative energy transfer between Tm^3+ and Nd^3+
  218. Broad-band 1.5μm emission of Er3+ ions in bismuth-based oxide glasses for potential WDM amplifier
  219. Optical transitions of rare earth ions for amplifiers: how the local structure works in glass
  220. Spectroscopic studies on multiphoton processes in erbium doped fluoride and oxide glasses
  221. Excited energy migration and fluorescence decay in Yb-doped and Yb/Pr-codoped tellurite glasses
  222. Fluorescence Characteristics and Lifetimes of 4f Excited States of Highly Er3+ Containing Single Crystals and Glasses Excited by Near-Infrared Light.
  223. Long Lasting Phosphorescence of Calcium Aluminosilicate Glasses Doped with Eu2+.
  224. Yellow/blue luminescences of Dy3+-doped borate glasses and their anomalous temperature variations
  225. Coordination of yttrium in rf-sputtered amorphous films in the system SiO2–Y2O3
  226. Young's modulus of RF-sputtered amorphous thin films in the SiO2-Y2O3 system at high temperature
  227. Blue Photoluminescence from Si-Doped Amorphous Silica Films by RF Sputtering
  228. Branching ratio of uv and blue upconversions ofTm3+
  229. Local structure and 1.5 μm quantum efficiency of erbium doped glasses for optical amplifiers
  230. Long-Lasting Afterglow Characteristics of Eu, Dy Codoped SrO-Al<sub>2</sub>O<sub>3</sub> Phosphor
  231. Optical Properties of Dysprosium‐Doped Low‐Phonon‐Energy Glasses for a Potential 1.3 μm Optical Amplifier
  232. Mechanisms and concentration dependence of Tm3+ blue and Er3+ green up-conversion in codoped glasses by red-laser pumping
  233. Preparation and Elastic Properties of rf‐Sputtered Amorphous Films in the System SiO2‐Y2O3
  234. Spectroscopic studies of radiative transitions and upconversion characteristics of Er^3+ ions in simple pseudoternary fluoride glasses MF_n–BaF_2–YF_3 (M: Zr, Hf, Al, Sc, Ga, In, or Zn)
  235. Selective Sensitization of Tm3+; 480nm Upconversion in Tm3+-Er3+ Codoped Tellurite Glass and its Concentration Dependence.
  236. Effect of ligand field on branching ratio of ultraviolet and blue upconversions of Tm3+ ions in halide and oxide glasses
  237. Selective sensitization of 480-nm blue upconversion by Tm3+-Er3+ energy transfer in tellurite glass
  238. Compositional dependence of Er3+ upconversion luminescence in MFLiFZrF4 glasses (M: alkali metals)
  239. Correlation betweenEu151
  240. Frequency upconversion and its new mechanism in Tm3+-doped fluoroaluminate glasses
  241. Relation between the Ω6 intensity parameter of Er3+ ions and the 151Eu isomer shift in oxide glasses
  242. Compositional dependence of upconversion luminescence of trivalent erbium ions in fluorozirconate glasses II. Alkaline earth fluoride dependence
  243. Network structure of r.f.-sputtered amorphous AlPO4MgO and AlPO4CaO films
  244. Compositional Dependence of Upconversion Luminescence of Er3+ in ZrF4-Based Glasses
  245. Excited-state absorption mechanisms in red-laser-pumped uv and blue upconversions inTm
  246. Elastic moduli of rf-sputtered Al2O3TiO2 amorphous films
  247. Upconversion and Local Structure of Er<sup>3+</sup> Doped Aluminate Glasses
  248. Properties and Network Constitution of rf‐Sputtered Amorphous Films in the System Silicon Dioxide–Aluminum Orthophosphate
  249. Preparation and Physical Properties of Radiofrequency‐Sputtered Amorphous Films in the System AlPO4–TiO2
  250. Compositional dependence of Judd-Ofelt parameters ofEr3+
  251. Elastic Properties and Molar Volume of Rare‐Earth Aluminosilicate Glasses
  252. Upconversion properties, multiphonon relaxation, and local environment of rare-earth ions in fluorophosphate glasses
  253. Special Articles on Organic and Inorganic Optical Materials. Er3+ Upconversion Fluorescence of MFn-BaF2-YF3-ErF3 (M: Zr,Hf,Al,Ga,In,Sc or Zn) Glasses.
  254. Local structure of rare-earth ions in fluorophosphate glasses by phonon sideband and mössbauer spectroscopy
  255. Special Articles on Organic and Inorganic Optical Materials. Preparation and Optical Properties of Er3+-Doped Amorphous Alumina Films by Magnetron Sputtering.
  256. Upconversion fluorescence of Ho3+ in TeO2-based glasses
  257. Phonon sideband spectra and local structure around Eu3+ ions in sodium silicate glasses
  258. Preparation and physical properties of rf-sputtered amorphous films in the Al2O3AlN system
  259. 151Eu Mössbauer spectroscopy and structure of the electron-doped (Eu, La)2−xCexCuO4−y superconductor
  260. UV and blue upconversion in Tm3+-doped fluoroaluminate glass by 0.655 μm excitation
  261. Phonon sideband of Eu3+ in sodium borate glasses
  262. Physical Properties and Structure of Silica‐Alumina‐Europium Oxide Glasses
  263. Upconversion fluorescences of TeO2- and Ga2O3-based oxide glasses containing Er3+
  264. Mössbauer spectroscopy of 151Eu in oxide crystals and glasses
  265. ESR and Mössbauer studies of Bi2O3Fe2O3 glasses
  266. ESR and Mössbauer studies of dispersed states of Fe3+ ions in silica gels
  267. Gain characteristics of Tm-doped fiber amplifier by dual-wavelength pumping with tunable L-band source