余辉

Sr2MgSi2O7基新型长余辉发光材料的合成与性能

The Synthesizing and Properties of Sr_2MgSi_2O_7-based Long Afterglow Luminescent Materials

陷阱分布表明：当Ti掺杂量为2.5%时，有利于合适深度陷阱的大量形成，从而使材料的发光和余辉性能得到了很大的提高。

The afterglow properties caused by the distribution of the trapped depths can be advanced greatly .

这样，你便可随时看到你想看的夕阳余辉……

You can see the day end and the twilight4 falling whenever you like …

基于余辉模型的P型雷达显示器计算机仿真

The Computer Simulation of the P Type Radar Indicator Based on Surplus Brightness Model

Mg，Ti共掺杂可显著改善其余辉性质。

The Ti and Mg co-doping can obviously improve its long-afterglow property .

基于Visualc++和OpenGL的具有余辉效果的P型雷达显示器仿真

Computer Simulation of the P Type Radar Indicator with Long Persistence Based on Visual C + + and OpenGL

LED用稀土Eu掺杂硅酸盐基荧光粉的研究进展稀土掺杂硅酸盐体系长余辉发光材料研究进展

RESEARCHES PROGRESS OF WHITE-LIGHT-EMITTING DIODES USING EUROPIUM ACTIVATED SILICATES Advances in phosphorescent materials of rare-earths ions doped silicate system

我们用标准伽玛暴模型检验了GroupⅠ的光学与X射线余辉的物理起源。

We test the physical origin of both the X-ray and optical afterglows of the GRBs in Group I based on the standard GRB models .

Swift时代伽玛射线暴及其余辉的多波段研究

Gamma-Ray Bursts and Afterglows : A Multi-Wavelength Study in the Swift Era

基于OpenGL的具有余辉效果的雷达显示器仿真

The Simulation of Radar Display with Brightness Based on OpenGL

Eu，Dy共掺杂长余辉发光材料中稀土离子价态的研究

Valences of rare earth ions in long afterglow phosphors

我们关联分析发现伽玛暴光学与x射线余辉的相关性可分为三类。

Our analysis shows that the association of the afterglows in the X-ray and optical bands are classified into three groups .

Gd2O2S：Ti的长余辉性能研究及机理探讨

Long Afterglow Property and Mechanism on Gd_2O_2S : Ti

对GroupⅡ和GroupⅢ的分析发现光学与X射线的余辉辐射可能由不同物理起源的成分所主导。

Our analysis on the Group II and III shows that the afterglow emission in the X-ray and optical bands could be dominated by components from different physical origins .

燃烧法合成纳米长余辉发光材料BaAl2O4：Eu，Nd

Combustion synthesis of nanometer long duration phosphor BaAl_2O_4 : Eu , Nd

掺杂对Y2O2S：Eu长余辉特性的影响及长余辉发光机理

Effect of Dopants on Long Afterglow Properties of Y_2O_2S : Eu Phosphor and Its Long Afterglow Mechanism

Eu，Dy共掺铝硼硅酸盐的长余辉发光玻璃

Eu , Dy Co-doped Long-lasting Luminescence Glass

硅酸盐体系白光LED用发光材料研究铕激活硅酸盐基质长余辉发光材料的制备与发光性能表征

Study on Preparation and Performance of Silicate Luminescent Materials Used for White-light LED ; Synthesis and Luminescent Properties of Silicate Long Afterglow Phosphors Actived by Europium

SrAl2O4∶Eu，Dy长余辉材料缺陷化学分析

Defect Chemistry of Long Afterglow Material SrAl_2O_4 ∶ Eu , Dy

燃烧法合成CaAl2O4∶Eu~（2+），Nd~（3+）长余辉材料

Combustion synthesis of caal_2o_4 : eu ~ ( 2 + ), nd ~ ( 3 + ) long afterglow phosphors

光栅扫描显示器上实现PPI雷达长余辉仿真

A implementation of PPI Radar Persistence simulating on raster scanning display

He（2~3S）与CH3l和CH3Br在流动余辉中传能的解离激发反应

The Dissociation Excitation Reaction of CH_3I and CH_3Br in Helium Flowing Afterglow

CS2分子Penning电离的流动余辉光谱测量

Spectra of ionized CS_2 in Penning ionization flowing afterglow

Zn2SiO4∶Ga蓝紫色长余辉的发光特性

Blue-purple long afterglow luminescence property of Zn_2SiO_4 ∶ Ga

测量了样品的X射线衍射（XRD）图谱、激发与发射光谱、余辉衰减曲线及热释光谱图等，并对其进行了分析。

Their X-ray diffraction ( XRD ) patterns , excitation spectra , emission spectra , phosphorescence decay curves and thermo-luminescent spectra were measured and analyzed .

长余辉磷光体Zn4B6O（13）：Dy发光特性研究

Luminescent Properties of Long-lasting Phosphors Zn_4B_6O_ ( 13 ): Dy

微波法合成红色长余辉发光材料Gd2O2S∶Eu，Mg，Ti及其发光特性

Synthesis of the Red Long Afterglow Phosphor Gd_2O_2S ∶ Eu , Mg , Ti by Microwave Radiation Method and Its Luminescent Properties

微波燃烧法制备不球磨CaAl2O4：Eu~（2+），Dy~（3+）蓝色长余辉材料

Preparation of non-grinding CaAl_2O_4 : Eu ~ ( 2 + ), Dy ~ ( 3 + ) blue long afterglow material by microwave combustion method

用X射线粉末衍射分析样品的晶体结构，用激发光谱，发射光谱和余辉衰减曲线对样品的发光性能进行表征。

The crystal structure of the samples was characterized by X-ray diffraction . The luminescent properties of the samples were characterized by excitation spectra , emission spectra and afterglow decay curves .

采用固相法合成了系列掺硼SrAl2O4：Eu，Dy长余辉发光材料。

A series doping boron long persistent SrAl_2O_4 : Eu , Dy phosphors were prepared by solid-state reaction .