Hydrodynamic Effects on Surface Morphology Evolution of Titanium Alloy under Intense Pulsed Ion Beam Irradiation

The hydrodynamic effects of molten surface of titanium alloy on the morphology evolution by intense pulsed ion beam(IPIB) irradiation are studied. It is experimentally revealed that under irradiation of IPIB pulses,the surface morphology of titanium alloy in a spatial scale of μm exhibits an obvious smoothening trend. The mechanism of this phenomenon is explained by the mass transfer caused by the surface tension of molten metal.Hydrodynamic simulation with a combination of the finite element method and the level set method reveals that the change in curvature on the molten surface leads to uneven distribution of surface tension. Mass transfer is caused by the relief of surface tension, and mean while a flattening trend in the surface morphology evolution is achieved.     

强流脉冲离子束辐照混合双层靶的Monte Carlo模拟

采用Monte Carlo方法模拟强流脉冲离子束与铝基钛膜双层靶的相互作用.强流脉冲离子束与双层靶材相互作用过程中,随着离子的注入,高能离子束引起涂层原子与基体材料原子之间相互渗透和混合,同时离子能量沉积到靶材内一定深度,并呈规律性的空间分布.这种能量分布影响靶内两种材料的熔化或气化过程,并导致界面物质结合强度发生变化.利用建立的束流模型,计算束流在靶材内的能量沉积和分布状况及界面处级联碰撞对双层靶界面混合区的影响,得出强流脉冲离子束混合双层靶时级联碰撞不起主要作用的结论,离子流密度在100A·cm^-2~150A·cm^-2时对离子束混合最为有利.     

Formation of Nanostructured Carbon Layers on the Surface of Chlorinated Polymers under High-Power Ion Beam Irradiation

A comparative study of the effect of a high-power ion beam of nanosecond duration on layers of reactive industrial chlorinated polymers (chlorinated polyvinyl chloride, polyvinyl chloride) containing a catalytic additive (ferrocene) is carried out. The formation of amorphous carbon nanofiber layers on the surface of chlorinated polymers is revealed. The characteristic diameter and length of nanofibers depends on the type of polymer and irradiation mode and is equal to 30–250 nm and 10 μm, respectively. The growth rate of carbon nanofibers is estimated. Its value might reach ~160 μm/μs. A possible mechanism for carbon nanofiber formation on the surface of chlorinated polymers with the addition of ferrocene under high-power ion beam irradiation is discussed.     

电子束辐照剂量对PAN/PEO交联度的影响

对PAN/PEO凝胶(5%PAN,5%PEO)在1.0 MeV电子束下进行了不同剂量的辐照。红外光谱测量表明,PAN/PEO凝胶辐照后发生了化学交联。分析结果指出,PAN/PEO的凝胶分数随着辐照剂量的增加而不断增加;其凝胶分数增长率的变化可以分为3个阶段,即快速增加阶段(0~39kGy)、下降阶段(39~130 kGy)和稳定阶段(130 kGy)。拟合发现,引入材料刚性参数β的半经验修正方程与未考虑材料刚性的Char1esby-Pinner方程相比,更符合实际测量值(对于该配比PAN/PEO,β为0.166)。交联度-辐照剂量曲线显示,交联度随辐照剂量的增加而增加,为设计新型能功能材料中所需的固定交联度的PAN/PEO凝胶提供了辐照剂量参考值。     

离子辐照对单晶Si中预注入B原子扩散的影响

室温下使用MeV能量级Si,F和O离子对5keV B离子预注入后的n-型单晶Si(100)进行了辐照,应用二次离子质谱仪测试分析了掺杂物B原子的分布剖面及其变化.结果表明,高剂量Si,F和O离子的附加辐照可以抑制热激活退火中B原子发生的瞬间增强扩散.在相同的辐照条件下,Si近表面区域中SiO₂层的存在更有助于限制B原子的瞬间增强扩散.结合卢瑟福沟道背散射分析和DICADA程序计算对实验结果进行了讨论.     

110keV铁离子束辐照L(+)–半胱氨酸的分子改性研究

用110keVFe离子注入L(+)-半胱氨酸薄膜样品,然后通过傅里叶变换红外光谱、紫外-可见光谱和核磁共振氢谱分析表明,L(+)-半胱氨酸在接受Fe离子束辐照后受到了严重损伤,在样品中产生了新的分子基团.ESR波谱分析表明在辐照产物中存在一种长寿命自由基.ESI质谱分析进一步支持了低能离子束辐照所致生物分子改性的发生.     

12C6+离子束辐照番茄种子当代效应

利用辐射能量为80 MeV/u 的12C6+重离子束辐照番茄种子, 辐照剂量分别为30, 60, 90, 120和160 Gy研究其对番茄M1代的生物学效应。结果表明, 随着辐照剂量的增大, 番茄的发芽率和成苗率降低, 且成苗率明显低于发芽率, 发现辐照损伤主要抑制了根的生长; MDA和脯氨酸含量变化的总体趋势为随着辐照剂量的增大先升后降再升高, 说明高剂量C离子辐照对生物膜造成更严重的损伤; APX活性随着辐照剂量的增大呈先升后降再升高的趋势, 表明APX在清除活性氧中起主要作用; POD和SOD活性的总体趋势是随着辐照剂量的增大而降低, 且明显低于对照组。综合分析表明, 12C6+重离子束辐照番茄种子, 对M1代具有明显的损伤效应, 高剂量辐照对番茄种子造成的损伤更大, 使酶的活性降低, 抑制植株生长。 To investigate the M1 biological effects of heavy ions irradiation on Lycopersicon esculentum Mill., its seeds were irradiated by 12C6+heavy ions (80 MeV/u) with the dosages of 30, 60, 90, 120 and 160 Gy respectively . The results showed that with doses increased gradually, germination rate and seedling rate of Lycopersicon esculentum Mill. were decreased, and the latter was lower than the former, mainly due to the inhibition of root growth. The irradiation increased the content of MDA and proline evidently, showing irradiation could damage biomembrane, and also decreased the activities of POD and SOD with distinct inhibition pattern. However, the low dose and high dose irradiation promoted APX activity, illustrating APX was induced to protect irradiation injury. In brief, exposure to 12C6+ heavy ions had obvious injury effects on the seeds of Lycopersicon esculentum Mill.. Heavy ions irradiation damaged biomembrane, inhibited activities of enzymes, and finally inhibited the growth of the first generation of these seeds.     

碳离子辐射诱导秀丽隐杆线虫生殖细胞凋亡研究

重离子辐射具有独特的深度剂量分布和较高的相对生物学效应,被认为是理想的放疗手段。重离子的生物学效应在径迹形成过程中由多个物理参量共同决定,而这些物理参量和离子入射深度紧密相关,因此明确离子不同入射深度的生物学效应对重离子肿瘤放疗方案的设计和优化有着重要的理论和应用价值。使用兰州重离子研究装置HIRFL-CSRe 终端的碳离子束作为辐射源,以活体模式动物线虫作为实验对象,以线虫生殖细胞的凋亡水平作为生物学检测终点,研究了10 和20 Gy 碳离子辐射在辐射的入口、坪区和峰区的当代生物学效应和对后代个体基因组不稳定性的影响。结果表明:10 和20 Gy 碳离子辐射在三个不同的辐照区域内均显著增加了辐射当代的线虫生殖腺细胞的凋亡水平,并表现出一定的辐射区域和辐射剂量依赖性。同时,辐射诱导的后代个体基因组不稳定性也表现出一定的辐射区域和辐射剂量相关性。Heavy ion irradiation is a perfect means in radio-therapy due to its special depth dose distribution and high relative biological effects. The biological effects of heavy ion irradiation are determined by some major physical parameters, and vary along the tracks of heavy ions. Therefore, it is very significant for the tumor radio-therapy to investigate the biological effects along whole range of heavy ion radiation. In the present study, Caenorhabditis elegans, a model in vivo, was irradiated by carbon ion beams from HCRFL-CSRe, The level of germ cell apoptosis of worms was used as a checking endpoint for DNA damage, the effects of carbon irradiation located in the entrance, plateau and peak regions on the genomic instability of the irradiated worm and their progeny were detected. The results showed that the 10 and 20 Gy of carbon ion radiations led to the increased germ cell apoptosis in irradiated worms and these effects depend on the worm location along the range of carbon ions and the irradiation dosage. The results also suggested that heavy ion irradiation induced the up-regulated genomic instability in their progeny, and might be related to both the irradiation dose and the irradiated location.     

重离子辐照玉米种子M1代诱变效应研究

用重离子^7Li和^12C以及^60Co的γ射线分别辐照玉米种子胚，研究重离子束辐照玉米种子M1代的生物学效应．结果表明:^60Co的丫射线使种子的发芽势和发芽率降低，重离子^7Li和^12C对发芽势和发芽率的抑制作用不明显；重离子辐照后，单株之间光合速率差异增大；M1代植株在雄性育性、叶片颜色及株高等方面发生了多种变化，并产生了一株双胚苗．应用随机多态性DNA分析技术，发现双胚苗的大、小苗之间及其与亲本自交系478在随机多态性DNA指纹上存在的差异，从分子水平上初步证实了双胚苗为自交系478的变异类型．In order to study M_(1) biological effects of heavy ion irradiation on maize seeds, the embryos of dry maize seeds are irradiated with~(7)Li ions and~(12)C ions as well as ~( 60)Co gamma rays. The results are as follows: ~( 60)Co gamma rays decrease germination impetus and germination rate of maize seeds, while the inhibitory effects of germination impetus and germination rate induced by the heavy ions~(7)Li and~(12)C are not significant. The difference of photosynthetic rates among the plants irradiate...     

CEMS Investigations of Swift Heavy Ion Irradiation Effects in Tb/Fe Multilayers

Hyperfine Interactions - In nanometric Tb/Fe multilayers, the effect of the electronic energy loss of fast heavy ions on the interfaces has been selectively investigated by 57Fe conversion electron...     

重离子对人胃癌细胞DNA错配修复基因MSH2 表达的影响

采用高传能线密度(LET) 重离子辐照人胃癌SGC7901 细胞,应用流式细胞技术、蛋白质印迹法(Western blot) 及反转录聚合酶链式反应(RT-PCR) 观察重离子诱导人胃癌SGC7901 细胞周期、凋亡和MSH2 表达状况。结果表明: 与对照组相比,SGC7901 细胞在辐射后72 h G2/M 期所占细胞比率(33.26±0.08) 和凋亡率(24.16±0.64) 均达到峰值,且呈时间依赖性增加;经重离子照射后,DNA错配修复基因MSH2 mRNA 和蛋白表达水平在6 h 最高。结果提示:重离子在体外诱导SGC7901 细胞周期阻滞和凋亡,且具有显著的时间依赖性效应;重离子在一定剂量和时间下,诱导了SGC7901 细胞MSH2 基因表达。DNA错配修复基因MSH2 可能参与了重离子辐照诱导胃癌细胞DNA损伤的修复应答。Human gastric cancer cell SGC7901 were irradiated with high linear energy transfer (LET) carbon ion. Apoptotic cells after irradiation were analyzed by flow cytometry and expression of MSH2 genes in the irradiated cells was detected by western blot and RT-PCR assay. Compared with the control group, we found that the number of G2/M (33.26±0.08) or apoptosis (24.16±0.64) of SGC7901 cells reached a maximum after irradiation at 72 h in a dose dependent manner. And heavy ion irradiation efficiently up-regulated the expression of MSH2 gene at 4.0 Gy after being irradiated 6 h. These results imply that heavy ion beam could induce cell apoptosis and cell cycle arrest in time-dependent manners. Furthermore, expression of MSH2 genes activated by carbon ion irradiation suggests that DNA mismatch repair gene MSH2 might be involved in DNA repair pathways.     

离子注入对黑松花粉粒和花粉管内骨架系统的损伤效应

以黑松花粉粒和花粉管为试验材料, 研究了离子注入对细胞骨架系统的损伤效应。研究结果表明, 离子注入会不同程度地破坏花粉管内微管网络的完整性, 花粉管形态的异常状态与其微管骨架结构的异常状态密切相关。离子注入对黑松花粉管内的微管骨架系统的正常结构有明显的效应, 这种效应的明显程度与离子注入剂量有一定的相关性, 即随着离子注入剂量的增加, 微管骨架系统受到破坏的程度更加明显。离子注入对黑松花粉管内微丝骨架系统的分布状态有明显的影响, 其程度也与离子注入剂量的大小存在一定的相关性。