Energy Spectrum for a Short-Range 1/r Singular Potential with a Non-Orbital Barrier Using the Asymptotic Iteration Method

Using the asymptotic iteration method, we obtain the S-wave solution for a short-range three-parameter central potential with 1/r singularity and with a non-orbital barrier. To the best of our knowledge, this is the first attempt at calculating the energy spectrum for this potential, which was introduced by H. Bahlouli and A. D. Alhaidari and for which they obtained the “potential parameter spectrum”. Our results are also independently verified using a direct method of diagonalizing the Hamiltonian matrix in the J-matrix basis.

Quantitative energy-dispersive X-ray fluorescence analysis for unknown samples using full-spectrum least-squares regression

The full-spectrum least-squares(FSLS) method is introduced to perform quantitative energy-dispersive X-ray fluorescence analysis for unknown solid samples.Based on the conventional least-squares principle, this spectrum evaluation method is able to obtain the background-corrected and interference-free net peaks, which is significant for quantization analyses. A variety of analytical parameters and functions to describe the features of the fluorescence spectra of pure elements are used and established, such as the mass absorption coefficient, the Gi factor, and fundamental fluorescence formulas. The FSLS iterative program was compiled in the C language. The content of each component should reach the convergence criterion at the end of the calculations. After a basic theory analysis and experimental preparation, 13 national standard soil samples were detected using a spectrometer to test the feasibility of using the algorithm. The results show that the calculated contents of Ti, Fe, Ni, Cu, and Zn have the same changing tendency as the corresponding standard content in the 13 reference samples. Accuracies of 0.35% and 14.03% are obtained, respectively, for Fe and Ti, whose standard concentrations are 8.82% and 0.578%, respectively. However, the calculated results of trace elements (only tens of lg/g) deviate from the standard values. This may be because of measurement accuracy and mutual effects between the elements.

Photoluminescence and Ce^(3+)→Tb^(3+)→Eu^(3+) Energy Transfer Processes of the Ce^(3+)/Tb^(3+)/Eu^(3+)-doped β-NaYF_(4) Phosphors with Broadened Excitation Spectrum

Ce^(3+)/Tb^(3+) co-doped and Ce^(3+)/Tb^(3+)/Eu^(3+) tri-doped β-NaYF_(4) photoluminescent microcrystals using oleic acid as surfactant were synthesized using the solvothermal method.Their microstructural characteristics and photoluminescence properties were investigated in detail.They have the shape of hexagonal prism bipyramids with uniform particle size,which decreases with the concentrations of Tb^(3+) and Eu^(3+).The energy transfer processes of both the Ce^(3+)→Tb^(3+) and the Ce^(3+)→Tb^(3+)→Eu^(3+) were systematically studied.Compared with Eu^(3+) or Tb^(3+) single-doped β-NaYF_(4) microcrystals,the sensitization by Ce^(3+) for the photoluminescence of Tb^(3+) and Eu^(3+) leads to a broad excitation spectral bandwidth in the ultraviolet (UV) range.Meanwhile,the corresponding optical absorption efficiency is greatly enhanced.High energy transfer efficiencies have been observed from Ce^(3+) to Tb^(3+) and from Tb^(3+) to Eu^(3+).

Dynamic energy spectrum and energy deposition in solid target by intense pulsed ion beams

A method for analyzing the dynamic energy spectrum of intense pulsed ion beam(IPIB) was proposed.Its influence on beam energy deposition in metal target was studied with IPIB produced by two types of magnetically insulated diodes(MID).The emission of IPIB was described with space charge limitation model,and the dynamic energy spectrum was further analyzed with time-of-flight method.IPIBs generated by pulsed accelerators of BIPPAB-450(active MID) and TEMP-4M(passive MID) were studied.The dynamic energy spectrum was used to deduce the power density distribution of IPIB in the target with Monte Carlo simulation and infrared imaging diagnostics.The effect on the distribution and evolution of thermal field induced by the characteristics of IPIB dynamic energy spectrum was discussed.

Rapid diagnostic method for transplutonium isotope production in high flux reactors

Transplutonium isotopes are scarce and need to be produced by irradiation in high flux reactors.However,their production is inefficient,and optimization studies are necessary.This study analyzes the physical nature of transplutonium isotope produc-tion using ^(252)Cf,^(244)Cm,^(242)Cm,and ^(238)Pu as examples.Traditional methods based on the Monte Carlo burnup calculation have the limitations of many calculations and cannot analyze the individual energy intervals in detail;thus,they cannot sup-port the refined evaluation,screening,and optimization of the irradiation schemes.After understanding the physical nature and simplifying the complexity of the production process,we propose a rapid diagnostic method for evaluating radiation schemes based on the concepts“single energy interval value(SEIV)”and“energy spectrum total value(ESTV)”.The rapid diagnostic method not only avoids tedious burnup calculations,but also provides a direction for optimization.The optimal irradiation schemes for producing ^(252)Cf,^(244)Cm,^(242)Cm,and ^(238)Pu are determined based on a rapid diagnostic method.Optimal irradiation schemes can significantly improve production efficiency.Compared with the initial scheme,the optimal scheme improved the production efficiency of ^(238)Pu by 7.41 times;^(242)Cm,11.98 times;^(244)Cm,65.20 times;and ^(252)Cf,15.08 times.Thus,a refined analysis of transplutonium isotope production is conducted and provides a theoretical basis for improving production efficiency.

填埋场振动台试验及渐进式损伤能量识别

为了探讨地震作用下含导排衬垫层填埋场的损伤变形特性,开展了含导排衬垫层的填埋场边坡的大型振动台试验,并根据填埋场各处动态响应规律,提出了一种基于希尔伯特-黄(HHT)和边际谱的能量识别方法。该方法能够用于识别填埋场整体损伤和局部损伤,并根据实测位移值对该方法的有效性进行了讨论。试验结果表明,在输入波峰值加速度为0.3g时,坡脚正位移峰值及坡中负位移峰值突变;希尔波特谱峰值(PSHEA)随着高度的增加而增加,填埋场固废层希尔伯特能量大于衬垫及导排系统;输入波峰值加速度为0.3g及0.4g时,导排衬垫界处抗剪强度低面及中老固废交界震陷,边际谱峰值(PMSA)发生突变,能量传递异常。填埋场在地震作用下的损伤主要分为3个阶段:0.1g~0.2g未发生破坏阶段,0.3g~0.4g局部损伤阶段,破坏由导排及衬垫系统开始,0.5g整体破坏阶段填埋场边坡进入塑性变化;输入波幅值达到0.3g时衬垫导排层先产生滑移,峰值时刻固废交界处发生破坏。研究成果可为填埋场在地震作用下的损伤预测及填埋场抗震减灾技术设计提供参考依据。

基于半经验法多球中子谱仪校准

基于半经验法扣除中子散射本底,提出了一种多球中子谱仪校准的新方法。首先用热中子参考辐射装置校准多球中子谱仪各中子球内He-3正比计数器的探测效率。用多球中子谱仪各中子球单独测量参考^(241)Am-Be中子源,结合半经验法扣除散射,给出了各中子球的注量响应。结合两者实验结果,获得^(241)Am-Be源能谱并给出谱仪注量响应。结果表明,校准的多球中子谱仪具备快中子区测量能力。

精细能谱的在线能群归并方法研究

为解决快堆存在的千群能群结构导致的确定论一步法程序计算成本极大的问题,本文基于SHARK程序开发了精细能谱下的在线能群归并方法,针对快堆的燃料栅元,该方法具备了在线建立等效模型、在线计算细群能谱和在线归并宽群截面的能力;针对非燃料栅元,目前使用实际问题的一维等体积模型计算的细群能谱在线归并宽群截面。数值结果表明,与1968群细群计算结果相比,在计算效率方面,在线能群归并方法的加速比为8~16,能显著提升计算效率;在计算精度方面,棒功率分布相对偏差不超过1%,特征值偏差最大在360 pcm左右。对确定论一步法用于快堆输运计算具有重要意义。

高光产额SrI_(2)Eu^(2+)晶体制备及其闪烁性能研究

SrI_(2)Eu^(2+)晶体因其极高的光产额和优良的能量分辨率,在伽马射线高分辨测量中呈现出良好的应用前景。采用改进的坩埚下降法制备出掺杂浓度为5.0%的SrI_(2)Eu^(2+)晶体,加工制成了直径为25 mm,厚度分别为3,6,9,12 mm的单透光防潮封装SrI_(2)Eu^(2+)闪烁体。研究了4种不同尺寸闪烁体对^(241)Am,^(137)Cs,^(60)Co放射源伽马射线的响应,测试了SrI_(2):Eu^(2+)晶体的荧光光谱、能量分辨率、发光产额及衰减时间等闪烁性能。实验结果表明:SrI_(2)Eu^(2+)晶体的发光光谱峰值位于436 nm,SrI_(2)Eu^(2+)晶体闪烁性能随晶体厚度减薄或伽马射线能量的提高而提升。3 mm厚度SrI_(2)Eu^(2+)闪烁体对1.173 MeV^(60)Co伽马射线的能量分辨率达到了2.74%,在^(137)Cs源伽马射线激发下,光产额达到1.23×10^(5)MeV^(-1),是传统NaI:Tl闪烁体光产额的3倍以上,与当前国际上报道的最好的实验结果相当。

应用蒙特卡罗方法研究医用加速器光子能谱分布

目的研究医用直线加速器在等中心平面的光子能谱分布和次级准直器对光子能谱的影响。方法使用BEAMnrc程序模拟5 cm×5 cm、10 cm×10 cm、15 cm×15 cm和20 cm×20 cm射野下,能量为6 MeV电子和光子在加速器治疗头中的输运行为,在等中心平面处设置相空间记录文件,以记录经过此平面的粒子信息。然后利用BEAMdp程序对相空间文件进行分析,从而获得在等中心平面的光子能谱分布及次级准直器对光子能谱的影响。结果通过分析标称能量为6 MV的医用直线加速器的光子能谱,发现次级准直器对光子能谱影响很小;不同射野具有不同的光子能谱分布;同一射野不同中心区域的光子能谱具有相同的归一化分布。结论在放射治疗的剂量计算中,应仔细考虑光子能谱的影响。

船模水动力噪声及孔腔激励载荷试验与计算对比分析

开展某远洋客船光体船模水下噪声测试及带孔腔船模的水动力激励载荷测试,并进行孔腔处稳态和瞬态流场计算,孔腔处脉动压力频谱计算曲线与试验曲线吻合较好。孔腔脉动压力线谱频率测试值与经验公式频率计算值对比良好,说明该公式在一定情况下适用于船体条形格栅孔腔线谱频率的预估。采用统计能量法分析法计算光体船模中高频流激噪声,将流体激励以频率-波数功率谱的形式施加,可大大减少流场计算工作量,适合于工程快速预估。在工程一般范围内,阻尼损耗因子取值可导致噪声结果相差5.5 dB,说明阻尼损耗因子的取值会较大影响计算结果,有必要形成材料损耗因子随频率变化的数据库,为船舶噪声快速计算提供支撑。

应用自然伽马能谱法恢复碳酸盐岩沉积时的古水深——以山西兴县关家崖马五5亚段为例

古水深分析对还原古环境与盆地构造演化历史具有重要的意义。目前古水深恢复多以定性为主,对样品可靠性的要求较高,且易受资料条件限制,而自然伽马能谱法具有易获取、成本低、受控因素少等优点,可结合水深函数半定量恢复水深,但该方法多被用于陆相碎屑岩的研究中,是否适用于海相碳酸盐岩尚需验证。以鄂尔多斯盆地关家崖剖面奥陶系马家沟组五5亚段为例,利用自然伽玛能谱法恢复了碳酸盐岩沉积时的古水深,恢复结果与碳同位素法、生物遗迹法、岩石组构法显示的结果一致。研究验证了自然伽马能谱法在恢复碳酸盐岩沉积时的古水深方面具有较高的可信度与实用性。

三期双流法在CT肺动脉造影的可行性和安全性评价

目的 评价三期双流法在CT肺动脉造影(CTPA)中的可行性和安全性。方法 纳入2022年2—12月可疑肺动脉栓塞患者80例,根据注射对比剂的不同方式分为传统双流组和三期双流组各40例,进行能谱CT扫描。测量或计算2组图像的各级肺动脉、右肺肺静脉和主动脉CT值、肺动脉信噪比和对比噪声比、射束硬化伪影(BHA)指数。采用3分法对图像质量和安全性进行主观评分。比较2组图像的主客观结果。结果 客观评价方面,三期双流组在左肺动脉干、左肺上叶、左肺叶间、左肺下叶、右肺动脉干和右肺下叶基底段动脉CT值均高于传统双流组(P<0.05),其动静脉分离程度、BHA值亦显著优于传统双流组,差别有统计学意义(P<0.05)。主观质量评价方面,三期双流组的平均上腔静脉BHA、动静脉分离均大于传统双流组(P<0.05);主观安全性上,三期双流组的患者主观感受优于传统双流组,差别有统计学意义(P=0.042)。结论 三期双流法CT肺动脉造影在临床上具有良好的可行性和安全性,在CT肺动脉造影中能有效提升动静脉分离效果并减少BHA。

Tb^(3+)掺杂钒磷酸盐蓝绿发光调控及发光机理研究

本文采用高温固相方法合成了不同掺杂浓度的YVO_(4)∶Tb^(3+)、YPO_(4)∶Tb^(3+)和YV_(1-x)P_(x)O_(4)∶Tb^(3+)系列荧光粉,利用差示扫描量热法(DSC)分析了高温固相合成过程中的化学反应,确定将1 350℃作为高温合成温度。利用XRD表征了材料物相结构,结果显示材料物相单一,均为四方晶系结构。研究了YVO_(4)∶Tb^(3+)、YPO_(4)∶Tb^(3+)和YV_(1-x)P_(x)O_(4)∶Tb^(3+)系列荧光粉室温下的发光性质。受晶体场影响,紫外激发下YVO_(4)∶Tb^(3+)中Tb^(3+)发光主要以^(5)D_(3)→^(7)F_(J)(J=6,5,4,2)跃迁发光为主,发光显示为蓝光;P元素的增加改变了YV_(1-x)P_(x)O_(4)∶Tb^(3+)晶体场环境,增强了基质与^(5)D_(3)、^(5)D_(4)能级间的多声子弛豫及^(5)D_(3)→^(5)D_(4)能级间的交叉弛豫,^(5)D_(4)→^(7)F_(J′)(J′=6,5,4,3)发射逐渐占优,发光呈现蓝、青、绿发光变化;掺杂浓度对YPO_(4)∶Tb^(3+)发光调控作用显著,随着掺杂浓度增加,Tb^(3+)的^(5)D_(3)与^(5)D_(4)能级间的交叉弛豫作用增强,^(5)D_(3)发光减弱,^(5)D_(4)发光增强,通过调整掺杂浓度实现材料发光由青光到绿光的调控。综上,通过基质组分及掺杂浓度调节,可实现Tb^(3+)掺杂钒磷酸盐体系蓝绿发光调控。

改进的经验模态分解方法和解析能量算子在电机轴承故障诊断中的应用

针对电机轴承故障信号能量微弱导致极易被噪声干扰所淹没的不足,进行了电机轴承故障特征提取研究;提出了一种改进的经验模态分解方法,包括谱峭度指标和一种新颖的解析能量算子相结合的电机轴承故障诊断方法;经实际测试与应用实现了对电机轴承故障信号中背景噪声干扰的去除,从而满足了电机轴承微弱故障特征提取的应用;通过与常用的电机轴承故障诊断方法对比验证了所提方法的有效性和优越性,为电机轴承故障诊断提供一个新的思路。

基于LabVIEW的能谱分析软件的实现及应用

能谱分析软件广泛用于分析样品的元素成分,为了提高分析效率和性能,降低成本,更优地分析样品元素成分,建立了一套基于LabVIEW能谱分析软件的设计方法。该方法通过五点平滑法和高斯拟合等方法,实现了γ能谱曲线的平滑、峰面积计算、能量刻度等功能。采用放射源^(137)Cs和^(60)Co对整个模块软件进行刻度,得到能量刻度曲线为Y=2.04X+0.52。采用本文开发的能谱分析软件,将152Eu当作未知放射源进行鉴别,得到了4个全能峰峰值,成功鉴别出该未知核素。采用基于LabVIEW的能谱分析技术具有人机交互界面友好直观、操作方便、高度的灵活性和通用性的特点,该软件平台可被广泛应用于样品分析测试实验室和教学实验室等场合。

渗氮层深度检验方法对比

本文采用金相法、硬度法、热染法、淬火法以及能谱仪测量5种方法对21CrMoVA、25Cr2MoVA、38CrMoAlA、X20Cr13材料渗层深度进行测定。结果表明:金相法、热染法、淬火法、能谱仪测量与硬度法测量的结果差别不大,其中能谱仪测量的结果总体来说与硬度法(仲裁方法)的差值最小。

计及荷电状态的混合储能系统容量优化配置

为平抑风电输出功率波动,降低对电力系统造成的冲击,提出一种计及荷电状态的混合储能系统容量优化配置策略。采取滑动平均控制的方法抑制功率波动性,运用频谱分析将风力发电波动部分转化为高、低频波动控制量,由混合储能系统按频段分别平抑控制,构建基于储能系统不同荷电状态区间的充、放电功率优化控制策略,以年平均成本最优为目标函数建立了计及蓄电池循环使用周期的成本模型。仿真结果表明,所提方法可实现功率波动的平滑控制,实现混合储能系统功率优化分配,使荷电状态保持在合理范围内,避免发生过充和过放,具有可行性以及经济优越性。

Response functions of a 4π summing gamma detector in β-Oslo method

The response functions of a 4π summing BGO detector were established using extensive experimental measurements and GEANT4 simulation. The partial and total efficiencies for all components of the γ-ray interaction with the BGO detector were also measured. These response functions and efficiencies will be used in the β-Oslo method experiments to study the neutron capture cross sections of radioactive heavy ions. The application of the response functions of the BGO detector under simulated continuum γ-rays and source measurement γ-rays proves that the method and response functions are reliable.

γ能谱法测量分析废包壳中铀和钚含量技术研究

核电站运行产生的乏燃料,在进行水法后处理时,通过剪切、溶解、共去污、分离、纯化等工序提取其中的铀、钚及其他核素。乏燃料组件经剪切溶解后,溶解液进入后续化工工艺进行处理,燃料元件棒的包壳则保留在溶解器中,称为废包壳,其是水法后处理工艺高放废物的主要来源之一,因设施运行中核材料生产过程的衡算与控制要求,以及废物处理处置的技术需要,需分析其中的铀和钚的含量。本文建立了γ能谱法间接分析废包壳中铀钚含量的方法,采用分段扫描的方式对包壳桶进行分层测量,分析了每层废包壳中137Cs的含量,再利用经燃耗模型计算所得的137Cs与核材料含量的比值,间接获得了铀和钚含量。该方法充分利用了核材料裂变的物理规律,建立了典型裂变产物与铀和钚含量之间的关系,并通过分段测量分析获得基础数据后间接获得铀和钚的含量,在废包壳测量分析、乏燃料组件燃耗测量分析中均可应用,可为设施运行、核材料衡算、废物管理等提供技术支撑。