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Book Categories |
Preface | ||
Introduction | ||
Bibliography | ||
Sect. 1 | Phosphors | |
Interpretation of the properties of alkali halide-thallium phosphors | 3 | |
On infra-red sensitive phosphors | 16 | |
Ultraviolet phosphors and fluorescent sun tan lamps | 26 | |
A proof of the associated-pair theory for sensitized luminophors | 34 | |
Alkaline earth halophosphates and related phosphors | 40 | |
On the nature of fluorescent centers and traps in zinc sulfide | 52 | |
Studies on some infrared stimulable phosphors | 61 | |
Configuration interaction in alkali halide phosphors | 75 | |
Optical properties of tin- and lead-activated calcium metasilicate phosphors | 87 | |
Materials and devices using double-pumped phosphors with energy transfer | 92 | |
A new generation of "deluxe" fluorescent lamps, combining an efficacy of 80 lumens/W or more with a color rendering index of approximately 85 | 121 | |
Photostimulated luminescence (PSL) and color centers in BaFX:Eu[superscript 2+] (X = Cl, Br, I) phosphors | 126 | |
Single-crystal rare-earth-doped yttrium orthosilicate phosphors | 129 | |
Mechanism of photostimulated luminescence process in BaFBr:Eu[superscript 2+] phosphors | 140 | |
A new long-phosphorescent phosphor with high brightness, SrAl[subscript 2]O[subscript 4]:Eu[superscript 2+],Dy[superscript 3+] | 148 | |
White phosphors from a silicate-carboxylate sol-gel precursor that lack metal activator ions | 152 | |
Identification and optimization of advanced phosphors using combinatorial libraries | 155 | |
A theory on cathode luminescence | 158 | |
Cathodo-luminescence: Part I. Growth and decay processes | 168 | |
Cathodo-luminescence: Part II. Current saturation and voltage effects | 183 | |
A new, highly efficient red-emitting cathodoluminescent phosphor (YVO[subscript 4]:Eu) for color television | 192 | |
Investigation of some Ce[superscript 3+]-activated phosphors | 195 | |
Preparation and cathodoluminescence of Ce[superscript 3+]-activated yttrium silicates and some isostructural compounds | 202 | |
Cathodoluminescent Ln[subscript y](SiO[subscript 2])[subscript x]:Tb phosphors | 210 | |
The efficiency of cathode-ray phosphors. I. Measurement | 215 | |
The efficiency of cathode-ray phosphors. II. Correlation with other properties | 221 | |
The luminescent properties of zinc sulphide in relation to x rays | 228 | |
Rare earth oxysulfide x-ray phosphors | 240 | |
On predicting the maximum efficiency of phosphor systems excited by ionizing radiation | 244 | |
Phosphors for x-ray detectors in computed tomography | 253 | |
Sect. 2 | Light Emitting Diodes - Electroluminescence | |
The new phenomenon of electrophotoluminescence and its possibilities for the investigation of crystal lattice. Part I: Introduction | 263 | |
The new phenomenon of electrophotoluminescence and its possibilities for the investigation of crystal lattice. Part II: The momentary illumination produced by disactivation of the long duration centres | 304 | |
The new phenomenon of electrophotoluminescence and its possibilities for the investigation of crystal lattice. Part III: The electrical extinction of the visible phosphorescence | 325 | |
Injected light emission of silicon carbide crystals | 334 | |
Electroluminescence of single crystals of ZnS:Cu | 339 | |
Tunneling-assisted photon emission in gallium arsenide pn junctions | 340 | |
Electroluminescent lines in ZnS powder particles. I. Embedding media and basic observations | 343 | |
Electroluminescent lines in ZnS powder particles. II. Models and comparison with experience | 350 | |
Injection electroluminescence in CdS by tunneling films | 366 | |
Electroluminescence in organic crystals | 369 | |
Efficient, visible electroluminescence from p-n junctions in Zn[subscript x]Cd[subscript 1-x]Te | 371 | |
Efficient green electroluminescence in nitrogen-doped GaP p-n junctions | 373 | |
Radiative recombination mechanisms in GaAsP diodes with and without nitrogen doping | 376 | |
Band structure enhancement and optimization of radiative recombination in GaAs[subscript 1-x]P[subscript x]:N (and In[subscript 1-x]Ga[subscript x]P:N) | 385 | |
Electroluminescence from polyvinylcarbazole films: 1. Carazole cations | 396 | |
Electroluminescence from polyvinylcarbazole films: 2. Polyvinylcarbazole films containing antimony pentachloride | 402 | |
Electroluminescence from polyvinylcarbazole films: 3. Electroluminescent devices | 411 | |
Electroluminescence from polyvinylcarbazole films: 4. Electroluminescence using higher work function cathodes | 418 | |
Organic electroluminescent diodes | 426 | |
Electroluminescence in organic films with three-layer structure | 429 | |
p-type ZnSe by nitrogen atom beam doping during molecular beam epitaxial growth | 432 | |
High performance AlGaInP visible light-emitting diodes | 435 | |
Light-emitting diodes based on conjugated polymers | 438 | |
Impact processes in electroluminescence | 440 | |
Visible light emission from a porous silicon/solution diode | 445 | |
Room-temperature sharp line electroluminescence at [lambda]=1.54 [mu]m from an erbium-doped, silicon light-emitting diode | 448 | |
Candela-class high-brightness InGaN/AlGaN double-heterostructure blue-light-emitting diodes | 451 | |
High-brightness InGaN blue, green, and yellow light-emitting diodes with quantum well structures | 454 | |
Organic electroluminescent devices | 457 | |
The tunnel thin film electroluminescent device | 462 | |
Three-color, tunable, organic light-emitting devices | 465 | |
Sect. 3 | Scintillators - Radioluminescence | |
Naphthalene counters for beta and gamma rays | 471 | |
The use of anthracene as a scintillation counter | 473 | |
Alkali halide scintillation counters | 474 | |
Solid non-crystalline scintillation phosphors | 476 | |
Calcium and cadmium tungstate as scintillation counter crystals for gamma-ray detection | 477 | |
The scintillation process in plastic solid solutions | 485 | |
Activation of lithium iodide by europium | 492 | |
Glass scintillators | 493 | |
Scintillation response of activated inorganic crystals to various charged particles | 497 | |
Measurement of the time dependence of scintillation intensity by a delayed-coincidence method | 509 | |
Scintillation process in CsI(Tl). II. Emission spectra and the possible role of self-trapped holes | 516 | |
CsI(Na) scintillation crystals | 521 | |
A fast inorganic scintillator | 522 | |
The scintillation mechanism in thallium doped alkali halides | 524 | |
Luminescence of Bi[subscript 4]Ge[subscript 3]O[subscript 12]: spectral and decay properties | 531 | |
Barium fluoride - inorganic scintillator for subnanosecond timing | 536 | |
Cerium-activated Gd[subscript 2]SiO[subscript 5] single crystal scintillator | 544 | |
A new type of x-ray area detector utilizing laser stimulated luminescence | 547 | |
A measurement of the light yield of common inorganic scintillators | 554 | |
Properties of the high-density scintillator cerium fluoride | 568 | |
Cerium fluoride, a new fast, heavy scintillator | 572 | |
Cerium-doped lutetium oxyorthosilicate: a fast, efficient new scintillator | 576 | |
Core-valence band transitions in wide-gap ionic crystals | 580 | |
Fundamental limits of scintillator performance | 594 | |
Energy loss in inorganic scintillators | 602 | |
Efficiency of electron-hole pair production in scintillators | 617 | |
Author Index | 633 | |
Subject Index | 635 | |
Materials Index | 639 |
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