连续CO2激光对红外窗口材料损伤研究

研究了连续ＣＯ２激光对几种红外窗口材料的表面损伤特性，研究表明，损伤机制在于杂质缺陷吸收造成的热冲击应力破坏。深入研究了杂质缺陷密度、焦斑与材料损伤阈值的关系，并建立了一个损伤模型。同时分析了热冲击应力破坏方式。     

Application of infrared lock-in thermography for the quantitative evaluation of bruises on pears

An infrared lock-in thermography technique was adjusted for the detection of early bruises on pears. This mechanical damage is usually difficult to detect in the early stage after harvested using conventional visual sorting or CCD sensor-based imaging processing methods. We measured the thermal emission signals from pears using a highly sensitive mid-infrared thermal camera. These images were post-processed using a lock-in method that utilized the periodic thermal energy input to the pear. By applying the lock-in method to infrared thermography, the detection sensitivity and signal to noise ratio were enhanced because of the phase-sensitive narrow-band filtering effect. It was also found that the phase information of thermal emission from pears provides good metrics with which to identify quantitative information about both damage size and damage depth for pears. Additionally, a photothermal model was implemented to investigate the behavior of thermal waves on pears under convective conditions. Theoretical results were compared to experimental results. These results suggested that the proposed lock-in thermography technique and resultant phase information can be used to detect mechanical damage to fruit, especially in the early stage of bruising.     

Damage evolution and multi-scale analysis of carbon fiber-reinforced cross-ply laminate with thermal residual stress

In order to study the mechanical and thermal properties of carbon fiber-reinforced cross-ply laminate, a macroscopic [90/0]_8S cross-ply laminate model and a unit cell of fiber regular distribution near the [90/0]_8S laminate interlaminar zone with plastic matrix and interface were created. Then the damage initiation discipline details of [90/0]_8S cross-ply laminate are researched, and the effects of interfacial coefficient of thermal expansion on thermal residual stress distribution and damage initiation are researched in detail both based on the macroscopic and microscopic models. It shows that the initial damage of interlaminar interface occurs in macroscopic model and the initial damage in microscopic model occurs both at intralaminar interface and interlaminar cohesive zone. No matter in macroscopic or microscopic model, the residual stress of 6.27 × 10^?6/°C interfacial coefficient of thermal expansion is larger than that of 6.27 × 10^?7/°C interfacial coefficient of thermal expansion. And the initial damage expands more widely in the first one.     

表面划痕中残余抛光颗粒对材料热损伤特性的影响

建立了高功率激光辐照下光学表面存在划痕且残存抛光颗粒时的热损伤分析模型,对这种复杂缺陷条件下的光学材料热损伤性能进行了研究。利用有限差分法计算了不同尺度抛光颗粒处于划痕中不同位置时光学材料表面的光场调制和温度场的分布。根据表面温度分布,得到了对应条件下光学材料的热损伤阈值变化规律。结果表明:除了抛光颗粒半径对材料损伤阈值存在影响外,当抛光颗粒位于划痕宽度方向不同位置时,材料的热损伤阈值也会有比较明显的变化;当位于划痕中心时,抛光颗粒对材料光场调制最强,更容易造成材料的熔化损伤。     

Non-Thermal Laser Ablation Model for Micro-Surgical Applications

We have developed a non-thermal laser ablation model which may reduce thermal damage to neighboring structures. Based on this model, the three critical parameters for a well controlled non-thermal microsurgery are (1) the laser wavelength with its photon energy matching closely the bond dissociation energy, (2) the energy fluence must be above threshold to avoid thermal process due to non-radiative relaxation from the excited electronic states to vibrational, (3) ultra short laser pulses (few fs) to completely eliminate thermal and direct biomolecular reactions. In this model the UV laser photon dissociates the molecular bonds which leads to the splitting of longer polymer chains into small fragments. The excess energy if any may appear as kinetic energy in the polymer-fragments. The extreme rapidity of the bond breaking process reduces heat conduction. The model establishes a relationship between ablation depth per pulse, the absorption coefficient, the incident laser energy fluence, and the threshold energy fluence. The ablation depths per pulse were calculated for the polymers Polymethyl methacrylate (PMMA) and polyimide for various commercially available UV lasers. It has been found that the minimum ablations depth occurs at 193 nm for both PMMA and polyimide. This assures a well defined incision with minimal thermal damage to the surrounding structures at this wavelength. There exists a definite threshold energy fluence for non-thermal ablation for any given biomolecule and below the threshold the non-radiative relaxation process may cause thermal ablation. New ultra fast lasers (few femtoseconds) (fs) will completely eliminate thermal diffusion as well as direct biomolecular reactions.     

1064 nm激光不同辐照时间对小鼠皮肤热损伤的实验与理论研究

通过实验和理论分析的方法研究1064 nm激光不同辐照时间对小鼠皮肤的热损伤规律。利用皮肤镜图像和光学相干断层图像评估小鼠皮肤组织热损伤程度,利用Arrhenius热损伤方程计算热损伤参数,建立激光诱导皮肤组织热损伤模型,并与实验结果进行对比。结果表明,在靶功率密度为30 W/mm2的1064 nm激光辐照下,0～100 ms辐照时间内,小鼠皮肤组织损伤可恢复;150～280 ms辐照时间内,小鼠皮肤组织出现水肿现象和热凝固损伤;280～550 ms辐照时间内,小鼠皮肤表皮层出现汽化现象,损伤斑周围出现焦痂,真皮层发生变性;660 ms辐照时间以上,小鼠皮肤表皮层和真皮层出现汽化现象,伤口渗出组织液,皮下组织发生变性。理论分析与实验结果一致,建立的热损伤模型能够验证小鼠皮肤热损伤程度。     

0.53 μm毫秒脉冲激光对GaAs热分解损伤特性

针对波长0.53 m的毫秒脉冲激光辐照GaAs的表面热分解损伤问题,建立了二维轴对称热传导模型,在考虑材料的热物性参数随温度变化的基础上,采用有限元法模拟了材料的瞬态温度场,得到了温度场分布特征及其随时间的变化规律,给出了材料表面发生热分解损伤阈值曲线。数值结果表明:毫秒脉冲激光对GaAs作用时,热传导影响着激光作用全过程,对应的损伤机理主要为热损伤;在激光作用下,被作用表面中心处温度最高,并且首先发生热分解损伤;随着作用激光能量密度的增加,GaAs表面发生热分解损伤的时刻不断提前。     

高功率掺镱双包层光纤激光器中光纤损伤及其理论分析

针对高功率掺镱双包层光纤激光器热效应引起的光纤损伤情况,由热传导方程,结合边界条件推导了两端泵浦情况下双包层光纤激光器光纤内的温度分布及热效应引起的应力分布,并对光纤内的温度分布和应力分布进行了数值模拟.结合模拟结果,对光纤的损伤进行了解释,分析了引起光纤热效应的主要因素.对两端泵浦情况的模拟与分析符合高功率光纤激光器的实际工作情况,这对优化高功率光纤激光器的设计有一定的参考价值.     

脉冲激光辐照光学薄膜的缺陷损伤模型

建立了缺陷吸收升温致薄膜激光损伤模型,该模型从热传导方程出发,考虑了缺陷内部的温度分布以及向薄膜的传导过程,通过引入散射系数简化了Mie散射理论得出的吸收截面.对电子束蒸发沉积的ZrO₂:Y₂O₃单层膜进行了激光破坏实验,薄膜样品的损伤是缺陷引起的,通过辉光放电质谱法对薄膜制备材料的纯度分析发现材料中的主要杂质元素为铂,其含量为0.9％.利用缺陷损伤模型对损伤过程进行了模拟,理论模型和实验结果取得了较好的一致性.     

紫外准分子激光损伤典型光学材料的特性分析

根据已经建立的紫外准分子激光损伤典型光学材料的理论模型,研究了准分子激光对透明光学材料（石英玻璃）和非透明光学材料（K9玻璃）的损伤特性,并结合实验结果证实了理论模型的有效性。研究表明：在准分子激光对非透明光学材料辐照下,激光光斑半径越大,产生的热应力和温度越小;脉宽越小,产生的热应力越大;随着脉冲数的增加,温度和热应力都逐渐增大。值得注意的是,当重频增加至45 Hz以上时,熔融损伤阈值开始低于应力损伤阈值,这说明当重频增加到一定程度时,非透明光学材料将首先产生熔融损伤,而不再是应力损伤。在准分子激光对透明光学材料辐照下,杂质微粒的半径和掩埋深度对光学材料温度场分布有着重要影响。但当杂质半径和掩埋深度超过一定的数值时,杂质粒子的存在与表面温度并无联系。理论模型能够较好地解释石英玻璃前/后表面相同的初始损伤形貌特征。     

LN晶体的激光损伤研究

测量了ＬＮ晶体的表面和体损伤阈值，以及重复频率脉冲的积累效应，研究了晶体中的非线性吸收过程。分析了损伤机理，发现在表面和体内都会发生多光子吸收，并且是引起晶体破坏的根源，造成宏观破坏的原因在体内是应力炸裂，在表面是热烧熔化和等离子体抛射。     

Defect detection and evaluation of ultrasonic infrared thermography for aerospace CFRP composites

The ultrasonic infrared thermography Non-destructive Testing is introduced for detecting the impact damage of a CFRP specimen for Unmanned Aerial Vehicles. The characteristics of thermal images with damage are particularly analyzed. A Local Binary Fitting (LBF) model based on a non-Gaussian kernel function is used to segment the defect edge. In view of the discontinuity of defect in thermal images due to multilayered structure of composite materials, defect merging algorithms are proposed including time domain and space domain methods by using a few thermal images, and the defect geometric distortion during camera imaging is also compensated. The defect in the composite material can be quantitatively analyzed after the defect reconstruction. The experimental result has shown that the proposed algorithm can effectively detect and evaluate the impact damage of thermal images and the accuracy of quantitative assessment is correspondingly increased.     

光学窗口材料激光辐照热-力效应的解析计算研究

建立了高功率连续激光辐照透明光学材料的热力学模型,通过积分变换方法求解三维热传导方程,得出了激光辐照引起的瞬态温度场分布的精确解析解,并在此基础上进一步求得热应力场的瞬态分布。以1.315μm的高能氧碘激光辐照熔石英玻璃为例,计算了熔石英在激光辐照下的温度场与热应力场分布,分析了其激光损伤机理。研究结果表明由于熔石英具有优良的热稳定性,温度不均匀分布所产生的热应力相对较小,激光损伤主要是受辐照区域温度值超过材料熔点发生熔融破坏。理论分析结果与相关的实验结论一致,说明所建立激光辐照效应模型的合理性。     

辐照损伤对钨晶格热导率影响的分子动力学研究

钨是最具应用前景的面向等离子体候选材料,但核聚变堆内强烈的辐照环境会使钨的近表面区域产生辐照损伤,进而影响其关键的导热性能.本文构建了包含辐照损伤相关缺陷的晶体钨模型,并采用非平衡分子动力学的方法定量研究了这些缺陷对钨导热性能的影响.结果表明,随中子辐射能量的增加,晶体内部留下的Frenkel缺陷数目增多进而导致钨的晶格热导率降低;间隙原子比空位更易于向晶界偏聚,且钨中的间隙钨原子与空位相比,使晶格热导率下降程度更大.纳米级氦气泡导致晶格热导率的显著降低,气孔率为2.1%时晶格热导率降至完美晶体的约25%.这些不同的缺陷造成不同程度的周围晶格扭曲,增加了声子散射几率,是导致晶格热导率下降的根源.     

Multiscale approach to radiation damage induced by ion beams: complex DNA damage and effects of thermal spikes

We present the latest advances of the multiscale approach to radiation damage caused by irradiation of a tissue with energetic ions and report the calculations of complex DNA damage and the effects of thermal spikes on biomolecules. The multiscale approach aims to quantify the most important physical, chemical, and biological phenomena taking place during and following irradiation with ions and provide a better means for clinically-necessary calculations with adequate accuracy. We suggest a way of quantifying the complex clustered damage, one of the most important features of the radiation damage caused by ions. This quantification allows the studying of how the clusterization of DNA lesions affects the lethality of damage. We discuss the first results of molecular dynamics simulations of ubiquitin in the environment of thermal spikes, predicted to occur in tissue for a short time after an ion’s passage in the vicinity of the ions’ tracks.     

波段外脉冲激光对锗透镜热冲击效应的数值与实验研究

基于热传导及热弹性力学的基本关系式,建立了激光辐照锗透镜的热力耦合数学物理模型,对瞬态热传导方程和应力平衡方程进行有限元数值求解,得到了锗透镜的温度场和应力场分布,并利用波长1.06 μm,脉冲宽度10 ns的Nd∶YAG脉冲激光对锗透镜进行了热冲击实验研究.数值分析表明,热应力损伤在锗透镜的脉冲强激光损伤中占据主导地位,在短脉冲激光辐照下,锗透镜出现热应力损伤的激光能量密度小于出现熔融损伤的激光能量密度,热应力损伤主要集中在光斑中心区域并体现为压应力损伤,将使材料表面出现裂纹或剥落,实验结果与数值分析基本相符.     

1064 nm激光致熔石英损伤的数值模拟研究

为了研究1064 nm激光对增透熔石英的热应力损伤机理以及等离子体分布等效应。基于热传导和气体动力学理论,探究了毫秒激光对增透熔石英的热应力损伤和致燃损伤的理论模型,利用comsol软件模拟了1064 nm激光作用增透熔石英时材料内部的热损伤、应力损伤以及激光支持燃烧波,模拟结果表明在激光光斑半径区域内,温升较为明显,形成较大的温度梯度,激光作用区域受热膨胀,其余区域会对膨胀发生抵制,因此材料内部产生应力,其中上表面的径向应力、环向应力在激光光斑边缘附近达到最大值,应力损伤应该先从辐照中心点或激光光斑边缘附近产生,同时发现等离子体的传播是稳态的,燃烧波的最大速度发生在最初时刻,并随着扩散时间逐渐变低。     

激光辐照引起的材料温度场和热应力场的瞬态分布

 光电探测器吸收激光后的温升以及因温升造成的各种现象,致使探测器遭受到不同程度的损伤。利用热弹性理论对CO2激光器辐照K9玻璃材料进行研究,建立激光辐照材料温升及热应力分布二维平面模型,通过解析计算得到由激光辐照半导体材料引起的温度场和应力场的瞬态分布。研究表明, K9玻璃材料的激光辐照损伤阀值与辐照时间和光斑半径相关。在同一条件下,造成的热应力损伤阀值较熔融损伤的低,故K9玻璃材料的破坏形态为热应力破坏。      

Effects of laser pulse heating of copper photocathodes on high-brightness electron beam production at blowout regime

Producing high-brightness and high-charge(100 pC) electron bunches at blowout regime requires ultrashort laser pulses with high fluence. The effects of laser pulse heating of the copper photocathode are analyzed in this paper. The electron and lattice temperature is calculated using an improved two-temperature model, and an extended Dowell-Schmerge model is employed to calculate the thermal emittance and quantum efficiency. A timedependent growth of the thermal emittance and the quantum efficiency is observed. For a fixed amount of charge,the projected thermal emittance increases with decreasing laser radius, and this effect should be taken into account in laser optimization at blowout regime. Moreover, laser damage threshold fluence is simulated, showing that the maximum local fluence should be less than 40 mJ/cm~2 to prevent damage to the cathode.     

K9玻璃在脉冲CO_2激光作用下的热应力分析

根据已建立的理论模型,计算得到了K9玻璃受脉冲CO_2激光辐照时产生的热应力分布,研究了热应力的时间特征,在分析样品尺寸对损伤结果影响的基础上,提出了K9玻璃抗激光损伤的最佳半径。结果表明:K9玻璃产生的热应力损伤主要由环向应力控制,热应力以热冲击波的形式在样品内传播,大小随时间变化而来回振荡,且激光脉冲结束后比激光作用时间内产生的热应力要大。这说明若样品在激光加热期间产生的热应力不足以造成材料破坏,则有可能会在其后的冷却过程中产生更大的热应力,材料将会在冷却过程中发生破裂。根据样品参数对损伤结果的影响,进一步验证了K9玻璃抗激光损伤最佳半径的通用性。