单晶YSZ的Xe+辐照损伤的电子显微分析

不同注量200keV Xe+ 注入YSZ单晶样品的电子显微分析结果表明,随着辐照注量的增加,缺陷簇的密度增大,在1×1015~1×1016cm-2Xe+注量,缺陷簇密度迅速增大,形成间隙型位错环;当Xe+注量增大到1×1017cm-2,缺陷簇密度的增加变得缓慢,并且有直径为2～4nm的Xe气泡析出。选区电子衍射花样表明YSZ样品没有产生非晶化转变。在Xe+辐照的离位率高达约350dpa的情况下,YSZ晶体没有非晶化,其原因主要是由于注入的Xe+以气泡形式析出。     

采用EPR谱和TEM对YSZ单晶辐照损伤的研究

 利用电子顺磁共振(EPR)谱和透射电子显微镜(TEM)研究了YSZ单晶的辐照效应。200 keV的Xe和400 keV的Cs离子注入［111］取向的YSZ单晶中,注量均为5×10¹⁶ cm^-2。EPR结果表明辐照产生了共振吸收位置g‖=1.989 和 g⊥=1.869、对称轴为［111］的六配位Zr³⁺顺磁缺陷。Cs辐照产生了比Xe 离子辐照多约150倍的六配位Zr³⁺顺磁缺陷。两种样品的剖面电子显微分析表明没有发现非晶化转变,但是Cs离子辐照的样品在损伤集中区域产生了密度较高的缺陷。因此,EPR谱和电子显微观察均说明在相同离位损伤(约160 dpa)的情况下,Cs离子辐照比Xe 离子辐照产生了更多的缺陷。造成这一现象的原因是Cs离子是化学活性的而Xe 离子却是惰性的。     

单晶YSZ的Xe+离子辐照效应研究

 200keV Xe⁺离子辐照使单晶YSZ由无色透明变成紫色透明，结果表明，能量为200keV，注量为1×10¹⁷cm^-22的Xe⁺离子辐照YSZ单晶产生的损伤高达350dpa，在损伤区产生高密度的缺陷，但仍然没有发生非晶化转变。吸收光谱测试结果表明，产生吸收带的注量阈值大约为10¹⁶cm^-2。注量为1×10¹⁶cm^-2和1×10¹⁷cm^-2的样品，吸收带峰值分别位于522nm和497nm。光吸收带可能与Zr阳离子最近邻的氧空位捕获电子形成的F型色心和Y阳离子近邻的氧离子捕获空穴形成的V型色心有关。     

单晶YSZ的Xe+离子辐照效应研究

200keV Xe+离子辐照使单晶YSZ由无色透明变成紫色透明,结果表明,能量为200keV,注量为1×1017cm-22的Xe+离子辐照YSZ单晶产生的损伤高达350dpa,在损伤区产生高密度的缺陷,但仍然没有发生非晶化转变。吸收光谱测试结果表明,产生吸收带的注量阈值大约为1016cm-2。注量为1×1016cm-2和1×1017cm-2的样品,吸收带峰值分别位于522nm和497nm。光吸收带可能与Zr阳离子最近邻的氧空位捕获电子形成的F型色心和Y阳离子近邻的氧离子捕获空穴形成的V型色心有关。     

Ho3+/Yb3+→α-NaYF4单晶的上转换荧光光谱特性

以KF作为助熔剂,采用固液界面温度梯度(70～90 oC/cm),通过改进的助熔剂-坩埚下降法从NaF-YF₃熔体系统中生长出了Ho³⁺/Yb³⁺离子双掺杂的α-NaYF₄单晶体. 在980 nm激光泵浦下可以观察到544 nm的上转换绿光和657和751 nm的上转换红光. 上转换的绿光强度明显强于上转换红光. 通过测量泵浦功率和上转换光的强度之间的关系研究了上转换发光的机理. 当Ho³⁺的掺杂浓度保持为1.0 mol%的情况下,Yb³⁺的浓度为8.08 mol%时上转换强度最强.     

Tm3+/Yb3 :LiYF4单晶的高效近红外量子剪裁及其在光伏电池中的应用

采用改进的坩埚下降法成功地生长了Tm/Yb共掺氟化钇锂单晶. 该单晶体具有每吸收一个蓝色光子并能发射出2个1000 nm近红外光子的下转换发光效应. 测定了样品的激发光谱、发射光谱和荧光衰减曲线. 在465 nm蓝光激发下观察到由Yb³⁺：²F_5/2→²F_7/2能级跃迁所致的960～1050 nm 波段的发射带,此发光带源于Tm³ 对Yb³ 离子的能量下转换过程. 应用Inokuti-Hirayama模型,研究了晶体的能量转换过程,结果表明Tm³ 向Yb³ 的能量传递是一个电偶极子相互作用机制过程. 当Tm³ 与Yb³ 离子的掺杂浓度为0.49mol%与5.99mol%时,单晶的量子剪裁效率达到最大值167.5%.     

高能核碰撞中的K+/π+比与次级碰撞效应

用程函近似分析在高能核碰撞中次级作用对K⁺/π⁺比的影响.计算表明,在K⁺/π⁺比中次级碰撞效应是重要的.     

Eu2+,Mn2+在BaZnP2O7中的发光及Eu2+→Mn2+能量传递

采用高温固相法合成了BaZnP₂O₇:Eu²⁺,Mn²⁺荧光粉，并对其发光性质及Eu²⁺对Mn²⁺的能量传递机理进行了研究.Eu²⁺和Mn²⁺在380 nm和670nm的发射峰分别由Eu²⁺的5d—4f跃迁和Mn²⁺的⁴T₁(^{4相似文献}   

相对论性核碰撞中K+/π+增强的输运模型解释

提出了一个研究相对论性核碰撞中K⁺/π⁺增强的简单的强子输运模型,指出了核子热运动和多次再散射效应的重要性.考虑了多次再散射,在合理的温度范围内(T～150MeV),可得到与实验相符合的K+/π+比值(～0.20).     

N2O+离子A2Σ+电子态高振动能级的转动结构分析

利用一束波长为36055nm的激光，通过(3+1)共振多光子电离方法制备纯净的且处于X²Π_1/2，3/2(000)态的N₂O⁺离子，用另一束激光激发所制备的离子到第一电子激发态A²Σ⁺的不同振动能级，然后解离，通过检测解离碎片NO⁺强度随光解光波长的变化，得到了转动分辨的N₂     

Crystal growth,structure and optical properties of Pr~(3+) -doped yttria-stabilized zirconia single crystals

The development of blue semiconductor light-emitting diodes(LEDs) has produced potential applications for Prdoped materials that can absorb blue light, especially crystals, and we now report structure and optical properties for high-quality Pr-doped single crystals of yttria-stabilized zirconia(YSZ) grown by the optical floating zone(FZ) method.X-ray diffraction(XRD) and Raman spectroscopy showed that all of the single crystal samples were in the cubic phase,whereas the corresponding ceramic samples contained a mixture of monoclinic and cubic phases. X-ray photoelectron spectroscopy(XPS) and electron paramagnetic resonance(EPR) spectroscopy showed that Pr was present as the Pr~(3+) ion in ceramic rods and single crystals after heating to high temperatures. The absorption and photoluminescence excitation(PLE) spectra of the Pr-doped YSZ crystals measured at room temperature showed strong absorption of blue light, while their photoluminescence(PL) spectra showed five emission peaks at 565 nm, 588 nm, 614 nm, 638 nm, and 716 nm under450 nm excitation. The optimum luminescence properties were obtained with the crystal prepared using 0.15 mol% Pr_6O_(11),and those with higher concentrations showed evidence of quenching of the luminescence properties. In addition, the color purity of Pr-doped YSZ single crystal reached 98.9% in the orange–red region.     

Brillouin scattering study on elastic and piezoelectric properties of laser irradiated ZnO single crystals

Brillouin light scattering technique can be successfully used to determine the whole set of elastic and piezoelectric constants of a ZnO single crystal irradiated by different laser energy densities,into a micron range (radiation layer thickness).It is found that the scattering intensity,the linewidth and the Brillouin scattering shift of acoustic phonons are all strongly dependent on laser energy density.Based on the sound propagation equations and these results,the directional dependences of the compressional and shear moduli of the irradiated ZnO sample in the (001) plane are investigated.It is found that under an appropriate laser condition,248 nm KrF excimer laser irradiation can significantly improve the surface quality and increase the elastic properties of ZnO single crystal.This procedure has potential applications in the fabrication of ZnO-based surface acoustic wave and optic-electronic devices.     

Ageing and thermal recovery of paramagnetic centers induced by electron irradiation in yttria-stabilized zirconia

We have used electron spin resonance spectroscopy to study the defects induced in yttria-stabilized zirconia (YSZ) single crystals by 2.5-MeV electron irradiations. Two paramagnetic centers are produced: the first one with an axial d 111 symmetry is similar to the trigonal Zr 3+ electron center (T center) found after X-ray irradiation or thermo-chemical reduction, whereas the second one is a new oxygen hole center with an axial d 100 symmetry different from the orthorhombic O m center induced by X-ray irradiation. At a fluence around 10 18 e/cm 2 , both centers are bleached out near 600 v K, like the corresponding X-ray induced defects. At a fluence around 10 19 e/cm 2 , defects are much more stable, since complete thermal bleaching occurs near 1000 v K. Accordingly, ageing of as-irradiated samples shows that high-dose defects at more stable than the low-dose ones.     

Irradiation effect of yttria-stabilized zirconia by high dose dual ion beam irradiation

Yttria-stabilized zirconia （YSZ） is irradiated with 2.0-MeV Au2＋ ions and 30-keV He＋ ions. Three types of He, Au, Au ＋ He （successively） ion irradiation are performed. The maximum damage level of a sequential dual ion beam implanted sample is smaller than single Au ion implanted sample. A comparable volume swelling is found in a sequential dual ion beam irradiated sample and it is also found in a single Au ion implanted sample. Both effects can be explained by the partial reorganization of the dislocation network into weakly damaged regions in the dual ion beam implanted YSZ. A vacancy-assisted helium trapping/diffusion mechanism in the dual ion beam irradiated condition is discussed. No phase transformation or amorphization behavior happens in all types of ion irradiated YSZ.     

Influences of KrF laser irradiation on the structure and luminescence of ZnO single crystal

<正>In this paper,we investigate the laser irradiation of ZnO single crystals and its influence on photoluminescence.Our study shows that the photoluminescence of ZnO single crystals strongly depends on surface morphologies.The ultraviolet emissions of laser treated-ZnO under 200 mJ/cm~2 become stronger,whereas for those deteriorated by irradiation above 200 mJ/cm~2,the green emissions centred at 2.53 eV are significantly enhanced with a red-shift to 2.19 eV,probably due to the changes in the charge states of the defects.Enhanced yellow-green emissions are well resolved into four peaks at around 1.98,2.19,2.36,and 2.53 eV due to a shallow irradiation depth.Possible origins are proposed and discussed.     

Swift ion beam irradiation on lithium niobate single crystals

Single crystals of lithium niobate were irradiated by 50 MeV Li³⁺ion irradiation at various ion fluences. The irradiated single crystals were subjected to various studies such as X-ray diffractometry, UV–VIS–NIR analysis and refractive index measurements. Atomic force microscopy patterns were recorded to study the surface changes after irradiation. Micro-Raman measurements were also recorded for irradiated specimens and the result of the measurements are discussed in detail.