{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"为满足堆内或核爆中链式反应过程的燃耗值的计算需要,对裂变谱中子和14 MeV中子诱发~(238) U 裂变的短寿命产物核的累积产额进行了评价.评价利用了所有可利用的实验数据,经物理分析后,使用AVERAGE程序加权平均,用ZOTT程序进行同时评价,给出了所要求能点的唯一最佳推荐数据,并将评价结果与ENDF/B-VⅡ,JEF-2.2,JENDL-3.2和CENDL-2的推荐数据进行了比较.评价结果将用于CENDL-2的更新与升级.","authors":[{"authorName":"郑娜","id":"0fd23871-9d09-44f1-9df6-3428531599f0","originalAuthorName":"郑娜"},{"authorName":"陈忠靖","id":"af7c1d60-8d05-49cc-a55e-c7435deb166b","originalAuthorName":"陈忠靖"},{"authorName":"孙吉宁","id":"64a07fd2-3b44-4cca-a9aa-adf28cd482d3","originalAuthorName":"孙吉宁"},{"authorName":"刘廷进","id":"45d8c703-8975-4067-a1d5-942ceb9ab04d","originalAuthorName":"刘廷进"},{"authorName":"陈金象","id":"f01e65e5-2f48-4b4c-a925-d84245fc2add","originalAuthorName":"陈金象"},{"authorName":"樊铁栓","id":"afb04769-ad6f-44fe-9a83-f3654752fc7a","originalAuthorName":"樊铁栓"}],"doi":"","fpage":"360","id":"a95d05f8-e098-4473-ac09-918f82e6aeea","issue":"4","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"b0b68d53-7b70-4cee-ab01-bde5b4e3d679","keyword":"~(238)U(n,f)反应","originalKeyword":"~(238)U(n,f)反应"},{"id":"dcbebe5b-1d3a-4b5f-ad08-6ae5945c8822","keyword":"累积产额","originalKeyword":"累积产额"},{"id":"dd9c9559-a271-44a1-8e8c-01fd4bdd18a8","keyword":"裂变产物的评价","originalKeyword":"裂变产物的评价"}],"language":"zh","publisherId":"yzhwlpl200904018","title":"~(238) U(n,f)短寿命产物核累积产额的评价","volume":"26","year":"2009"},{"abstractinfo":"以中子诱发235U裂变产生的135Xe的累积产额数据为例,利用了所有可利用的实验数据,介绍了裂变产物产额数据的评价方法,包括数据的收集、修正、评价、误差调整和数据处理,特别是协方差数据的评价、半经验模型理论计算数据的应用和相关数据的处理,给出了135Xe热能点产额的推荐值以及0~20 MeV产额-能量关系曲线。","authors":[{"authorName":"陈永静","id":"6f2e7414-4fa2-4f04-bc55-dbcb742d8022","originalAuthorName":"陈永静"},{"authorName":"刘廷进","id":"93023234-0367-492c-b4be-1e910ddbd41e","originalAuthorName":"刘廷进"},{"authorName":"孙正军","id":"cca58a11-4d3d-4d93-aa3d-fb528fc3f43e","originalAuthorName":"孙正军"},{"authorName":"舒能川","id":"0dfffa7e-5049-4b8e-a325-4e3e709a9c47","originalAuthorName":"舒能川"}],"doi":"","fpage":"208","id":"2102d9da-d2fc-4516-b149-a7d9552057c3","issue":"2","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"97871f5d-ccb4-471a-84a1-b60e061f2dc6","keyword":"裂变产额","originalKeyword":"裂变产额"},{"id":"d97e581d-15bf-4736-a0f2-ea12358efa19","keyword":"数据评价","originalKeyword":"数据评价"},{"id":"b3843dc8-8a6b-47e2-83f9-4c88fad222f9","keyword":"产额能量关系","originalKeyword":"产额能量关系"},{"id":"e70cedd2-9243-4c26-b825-75088da920f1","keyword":"135Xe","originalKeyword":"135Xe"}],"language":"zh","publisherId":"yzhwlpl201202018","title":"裂变产物产额数据的评价","volume":"29","year":"2012"},{"abstractinfo":"232Th中子诱发裂变产额在Th/U燃料循环的核能开发中具有重要的意义,在现有国际评价产额数据库基础上,结合最新的实验数据,对产物核的质量分布和反应堆计算所需的重点产物核进行了比对.这些产物核包括95Mo,99Tc,101 Ru,103Rh,109Ag,133Cs,147Sm,149Sm,150Sm,151Sm,152Sm,143Nd,145Nd和153Eu等,对有分歧的133Cs,152Sm和153Eu累积产额数据进行了评价调整.最后推荐给出了n+232Th裂变的产额数据库,作为CENDL库的组成部分.","authors":[{"authorName":"舒能川","id":"2abe25f3-e954-41f3-b91a-cd0c4e77c63e","originalAuthorName":"舒能川"},{"authorName":"刘丽乐","id":"f6fb2f37-fafd-4854-bda7-9082ac4c874e","originalAuthorName":"刘丽乐"},{"authorName":"刘廷进","id":"d3d5ebb8-2578-44cb-b5cb-a703c3997022","originalAuthorName":"刘廷进"},{"authorName":"吴海成","id":"dd20f32e-68bb-44e3-a35b-b396ee520a19","originalAuthorName":"吴海成"},{"authorName":"陈永静","id":"5ff5f45e-a0e5-4a08-becc-601789f8d314","originalAuthorName":"陈永静"},{"authorName":"钱晶","id":"cf327e5e-10c8-4605-85da-4ae956f6efda","originalAuthorName":"钱晶"},{"authorName":"孙正军","id":"69e3f495-f127-47b4-b623-f15cb2d876f2","originalAuthorName":"孙正军"}],"doi":"10.11804/NuclPhysRev.30.03.379","fpage":"379","id":"8db10640-5d07-4cbf-84a1-b111b5db0f80","issue":"3","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"bfca8c25-fb12-4d47-9a3e-7d78e18e6456","keyword":"232Th","originalKeyword":"232Th"},{"id":"e5af9964-9a02-4f6b-9842-4fd565145b74","keyword":"裂变产额","originalKeyword":"裂变产额"},{"id":"c273aee1-9ac6-4364-b271-6c61db2d351a","keyword":"Th/U燃料循环","originalKeyword":"Th/U燃料循环"}],"language":"zh","publisherId":"yzhwlpl201303023","title":"232Th中子诱发裂变产额数据比对评价","volume":"30","year":"2013"},{"abstractinfo":"钨酸铅(PbWO4)晶体由于具有高密度、短辐照长度、高的辐照硬度和快发光等特点而成为目前最具发展潜力的闪烁晶体之一,但其光产额低的缺点限制了它在高能领域以外的应用.因此,提高钨酸铅晶体的光产额以使其在PET装置等低能领域获得应用已成为近年来钨酸铅晶体的研究热点.本文综述了高光产额钨酸铅晶体的研究现状,指出了目前存在的问题.结合理论分析,提出采用坩埚下降法晶体生长技术,离子掺杂和退火等措施是进一步提高钨酸铅晶体光产额的主要途径.","authors":[{"authorName":"叶崇志","id":"4871f2fe-7074-4145-97e3-7ffa3e3c2623","originalAuthorName":"叶崇志"},{"authorName":"杨培志","id":"2153f37c-0a37-4830-9a53-5521c3fbebbd","originalAuthorName":"杨培志"}],"doi":"10.3969/j.issn.1000-985X.2005.01.028","fpage":"124","id":"f0dd4ec8-e198-4c76-9b6f-f42716c6438f","issue":"1","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"7c5a4d71-f628-4a91-ad42-0a50ccc7f67b","keyword":"钨酸铅晶体","originalKeyword":"钨酸铅晶体"},{"id":"bfb473c0-3073-4323-9501-5bb4b8d6a239","keyword":"高光产额","originalKeyword":"高光产额"},{"id":"bf2435e7-c3a1-4453-9c9a-3cef76a768f4","keyword":"离子掺杂","originalKeyword":"离子掺杂"},{"id":"a2a58816-1817-4621-9d7a-5de97089442c","keyword":"退火","originalKeyword":"退火"},{"id":"82d20bc7-7777-4ffd-8d32-7b7227780866","keyword":"闪烁晶体","originalKeyword":"闪烁晶体"}],"language":"zh","publisherId":"rgjtxb98200501028","title":"高光产额钨酸铅(PbWO4)晶体的研究进展","volume":"34","year":"2005"},{"abstractinfo":"利用加速器中子源研究了用于标定塑料闪烁体中子探测效率及相对发光产额的实验技术, 在四川大学原子核科学技术研究所2.5 MeV静电加速器上, 利用T(p, n)和D(d, n)核反应作为中子源, 在0.6-5 MeV中子能区对直径为40 mm, 厚度为5 mm的1421塑料闪烁体的中子探测效率及相对发光产额进行了测定. ","authors":[{"authorName":"彭太平","id":"cd51fc03-13fb-491a-a2a5-4dd8cf36ddde","originalAuthorName":"彭太平"},{"authorName":"罗小兵","id":"39bebb16-f5b1-4a87-b626-09473aad7c95","originalAuthorName":"罗小兵"},{"authorName":"张传飞","id":"6351cdaa-def3-4713-8f8a-5202d5048dc2","originalAuthorName":"张传飞"},{"authorName":"李如荣","id":"1c20351a-d212-4131-884f-4f63e5262f72","originalAuthorName":"李如荣"},{"authorName":"张建华","id":"feed95d7-0565-4ee8-8951-0b91efef3598","originalAuthorName":"张建华"},{"authorName":"夏宜君","id":"65e3582a-d231-4593-adc5-06969555595d","originalAuthorName":"夏宜君"},{"authorName":"杨志华","id":"c8c2143d-b745-4337-831f-4cbb2825369d","originalAuthorName":"杨志华"}],"doi":"10.3969/j.issn.1007-4627.2002.03.011","fpage":"357","id":"ea918604-ac76-4c40-a9df-548c9d343900","issue":"3","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"202292cb-4f6b-4970-97db-9b87a1ed7e1d","keyword":"塑料闪烁体","originalKeyword":"塑料闪烁体"},{"id":"851ad383-272c-46cf-a9f1-1fe788b77b5d","keyword":"中子探测效率","originalKeyword":"中子探测效率"},{"id":"90cdf615-b80d-411e-a778-99759a178f81","keyword":"相对发光产额","originalKeyword":"相对发光产额"}],"language":"zh","publisherId":"yzhwlpl200203011","title":"塑料闪烁体中子探测效率及相对发光产额的标定","volume":"19","year":"2002"},{"abstractinfo":"基于最近更新的极端相对论量子分子动力学模型,研究了197 Au+197 Au产生的中子和氢同位素的横动量依赖的椭圆流和轻带电粒子的产额比。发现中子和氢同位素的椭圆流之比vn2/vH2敏感于对称能的高密行为,而3H和3 He的产额比敏感于对称能的低密行为。通过比较FOPI/LAND和FOPI合作组的最新实验数据与模型模拟的结果,发现接近线性对称能的Skyrme参数给出的结果能与这两个实验值都符合。","authors":[{"authorName":"王永佳","id":"36dc325a-523f-49af-b163-75fb758abf75","originalAuthorName":"王永佳"},{"authorName":"郭琛琛","id":"bc6ca417-ea19-4d39-a514-8676e6595f56","originalAuthorName":"郭琛琛"},{"authorName":"李庆峰","id":"1b2587a0-d5fe-4f88-987e-2050902f7efb","originalAuthorName":"李庆峰"},{"authorName":"孙宇梁","id":"4f5921d4-e68c-4c3b-9fa5-f18ccc2b4bcf","originalAuthorName":"孙宇梁"}],"doi":"10.11804/NuclPhysRev.32.02.154","fpage":"154","id":"63a97a96-b648-4b2f-9499-932a1da5d8c5","issue":"2","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"50f196d0-5d7f-4bea-ae40-cdc4618710b3","keyword":"对称能","originalKeyword":"对称能"},{"id":"07cbb4dc-a6bd-4313-9f9c-d1ac555cc6fb","keyword":"椭圆流","originalKeyword":"椭圆流"},{"id":"0e259ef4-4e10-4258-a02d-694b769775f8","keyword":"输运模型","originalKeyword":"输运模型"}],"language":"zh","publisherId":"yzhwlpl201502004","title":"利用椭圆流和轻带电粒子产额比探测对称能","volume":"","year":"2015"},{"abstractinfo":"在兰州重离子加速器国家实验室测量了1.8 MeV Xeq+离子分别轰击N型和P型Si两种靶材表面时的电子发射产额。实验中,通过改变入射离子的电荷态,研究了入射离子势能沉积对两种靶材表面电子发射产额的贡献。结果发现同一离子入射时,N型Si表面的电子发射产额高出P型Si表面的电子发射产额约12.5%;对于具有相同入射动能的Xeq+离子,两种靶材表面的电子发射产额均随着入射离子势能的增加而线性增加。此外,还测量了3.4 MeV Xeq+离子分别轰击以上两种靶材时的电子发射产额,得到了类似的结果。本文利用功函数分别从动能电子发射和势能电子发射两个角度对实验结果进行了分析讨论。","authors":[{"authorName":"曾利霞","id":"d7e1c2c2-70dc-4ccc-bd4e-8c155da3b9d4","originalAuthorName":"曾利霞"},{"authorName":"徐忠锋","id":"02abbfab-9014-44f7-9330-af8d61d94378","originalAuthorName":"徐忠锋"},{"authorName":"赵永涛","id":"f72bdefd-9399-429f-8033-9d272995d2cc","originalAuthorName":"赵永涛"},{"authorName":"吴帆","id":"5e724711-e8ae-49d2-b958-82e0a7d546ce","originalAuthorName":"吴帆"},{"authorName":"刘学良","id":"d9a4904a-f7d0-4d00-8c38-a878a0684faf","originalAuthorName":"刘学良"},{"authorName":"程锐","id":"d5ce77ff-5d12-46b4-a6ba-1c192d5bcfa6","originalAuthorName":"程锐"},{"authorName":"周贤明","id":"ec845208-3a1e-4de2-8882-93d1d22914c2","originalAuthorName":"周贤明"},{"authorName":"雷瑜","id":"2986ee38-1e16-4072-8b74-d9c363835f8f","originalAuthorName":"雷瑜"},{"authorName":"刘世东","id":"98d53319-8c26-46c1-8385-dcf08f08aa19","originalAuthorName":"刘世东"},{"authorName":"张艳宁","id":"ee617901-a586-46f6-abb5-e567e534aeee","originalAuthorName":"张艳宁"}],"doi":"10.11804/NuclPhysRev.33.03.365","fpage":"365","id":"439b8252-0e52-40ab-8077-2b7eff7cb1d9","issue":"3","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"5d07f5ef-ecc3-4b16-9f0f-6bb868070688","keyword":"高电荷态离子","originalKeyword":"高电荷态离子"},{"id":"88a0c00d-218e-4ac8-bfca-4b9c4015b360","keyword":"电子发射产额","originalKeyword":"电子发射产额"},{"id":"2d99e747-19d4-4617-b6a1-ff532b194c2f","keyword":"阈值速度","originalKeyword":"阈值速度"},{"id":"828a6593-3954-4f63-8469-903de7a450c6","keyword":"功函数","originalKeyword":"功函数"}],"language":"zh","publisherId":"yzhwlpl201603020","title":"129 Xeq+轰击N型和P型Si表面时的电子发射产额研究","volume":"33","year":"2016"},{"abstractinfo":"在修改的Fisher模型框架下,利用同质异位素产额比和结合能方程中对称能系数与温度比率的关联,可以提取对称能系数与温度的比值。利用3种不同的近似方法得到了重离子核反应产生丰中子余核的对称能系数与温度比(asym/T),并研究了相关物理量对asym/T的影响。结果表明,库仑能对提取丰中子余核的asym/T影响较小,且参考核的选取对asym/T的提取也有一定的影响。","authors":[{"authorName":"普洁","id":"559bc4cd-242b-4f0f-9266-ce18463a86a9","originalAuthorName":"普洁"},{"authorName":"乔庆鹏","id":"0cf5f2b1-b594-4c1f-be10-0032fcb8282e","originalAuthorName":"乔庆鹏"},{"authorName":"魏慧玲","id":"4312ed7c-503d-4dd6-b2d5-32fb625cf255","originalAuthorName":"魏慧玲"},{"authorName":"王闪闪","id":"8cc155e0-0416-422c-82f8-c276fbd4a2e2","originalAuthorName":"王闪闪"},{"authorName":"马春旺","id":"6621b852-6a63-440a-913c-e7c6667ee650","originalAuthorName":"马春旺"},{"authorName":"张同林","id":"02682369-f5a7-4f91-a159-5b320233f354","originalAuthorName":"张同林"}],"doi":"","fpage":"129","id":"a7db8ebc-e9aa-4fac-90be-a47b80e1ac0b","issue":"2","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"18a47e60-9a52-4958-a08d-ebc3cfc75e9d","keyword":"重离子核反应","originalKeyword":"重离子核反应"},{"id":"b143fae0-f131-4322-8d33-7da4df5efe00","keyword":"同质异位素产额","originalKeyword":"同质异位素产额"},{"id":"0d8b4ec4-e19f-459a-93ab-3018e7617e46","keyword":"对称能","originalKeyword":"对称能"}],"language":"zh","publisherId":"yzhwlpl201202003","title":"利用同质异位素产额比提取对称能的近似方法","volume":"29","year":"2012"},{"abstractinfo":"氚分析在聚变堆与核技术的研究中有着广泛的应用。BIXS技术(β衰变诱发X射线谱技术)是一项无损的氚分析技术,该技术的分析深度对于高原子序数的材料能达到100μm,对低原子序数的材料能达到1 mm。在BIXS技术中,采用金属薄膜作为β射线阻挡层具有排除极化韧致辐射干扰、减少探测器信号堆积等优点。为了研究多种β射线阻挡层材料对BIXS技术的影响,利用Monte Carlo方法PENELOPE并行模拟程序分别模拟了采用Al、Au金属薄膜和Ar气作为β射线阻挡层的BIXS技术,并使用GENEREG反演程序对模拟结果进行反演计算及比较。还讨论了韧致辐射与特征X射线产额计算精度、韧致辐射谱倾斜对BIXS技术的影响。研究表明Al金属薄膜最适合用作BIXS技术的β射线阻挡层。","authors":[{"authorName":"黄郁旋","id":"27fbe70e-95a2-406c-a2f8-53a59bca69e5","originalAuthorName":"黄郁旋"},{"authorName":"毛莉","id":"a9930969-70a1-4931-b178-2459744f0977","originalAuthorName":"毛莉"},{"authorName":"丁伟","id":"05432f19-513e-47d9-b8ad-13cfdbe2a0ab","originalAuthorName":"丁伟"},{"authorName":"安竹","id":"f0bd8c6f-06d4-4c71-b776-5669a252827d","originalAuthorName":"安竹"}],"doi":"10.11804/NuclPhysRev.33.01.045","fpage":"45","id":"e2c48950-74f7-45e0-9cdf-a4ee02664553","issue":"1","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"b93367e6-e9c2-4708-af31-04aaae722a06","keyword":"BIXS技术","originalKeyword":"BIXS技术"},{"id":"d41169b1-4f39-4e25-9a15-e6373e6954e5","keyword":"β射线阻挡层","originalKeyword":"β射线阻挡层"},{"id":"c19aa42b-5772-4487-b0c1-f18cee9ba54b","keyword":"特征X射线","originalKeyword":"特征X射线"},{"id":"300803ef-0e70-413a-a1e0-ba9b0531e2f6","keyword":"韧致辐射","originalKeyword":"韧致辐射"}],"language":"zh","publisherId":"yzhwlpl201601009","title":"多种β射线阻挡层及X射线产额精度对BIXS技术的影响","volume":"33","year":"2016"},{"abstractinfo":"采用ImQMD05模型分析了非对称反应体系40Ar+197Au,124Sn在中低能区(Ebeam =35~100 MeV/u)的半擦边反应的条件下的反应机制,并进一步探索了不同模型参数,如对称能斜率、碰撞参数等,对轻粒子并合不变中子质子产额之比角分布各向异性的影响。通过研究发现:对于出射动能大于每核子10 MeV的动力学出射的轻粒子而言,其并合不变的中子质子产额比值角分布各向异性与对称能的软硬具有明显的关联;碰撞参数对轻粒子动力学发射各向异性的影响最弱。","authors":[{"authorName":"吴强华","id":"1b9e5650-a94b-41a7-9b7d-26efa5e6bcbc","originalAuthorName":"吴强华"},{"authorName":"张英逊","id":"4673972c-9087-4af4-82db-7f179834e297","originalAuthorName":"张英逊"},{"authorName":"肖志刚","id":"cca8bb3d-8b56-44dd-8f07-e538c6c2dacd","originalAuthorName":"肖志刚"},{"authorName":"王仁仲","id":"a2e2e3f2-4415-4267-84ca-35d47baa5b18","originalAuthorName":"王仁仲"},{"authorName":"张嫣","id":"82cb76be-bbbf-42ba-baf6-7a151a1b9a65","originalAuthorName":"张嫣"},{"authorName":"李祝霞","id":"d6232320-5d80-4024-ba32-fda65bb5f018","originalAuthorName":"李祝霞"},{"authorName":"王宁","id":"a336717d-aaa8-4fa0-a766-abffcea62cb3","originalAuthorName":"王宁"}],"doi":"10.11804/NuclPhysRev.33.03.251","fpage":"251","id":"14c0cafa-fd19-400b-aef4-45c0d50364c5","issue":"3","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"95b6b50f-7c8b-43c2-bab1-cbd25c03f019","keyword":"对称能","originalKeyword":"对称能"},{"id":"e351c183-c44c-45e0-bdc0-796a2b2b23c2","keyword":"重离子碰撞","originalKeyword":"重离子碰撞"},{"id":"6d93a594-c5ac-4ff1-b413-ebe4ab2753fd","keyword":"并合不变产额","originalKeyword":"并合不变产额"},{"id":"0ed73585-9e15-4ef7-97a9-b891207ceb32","keyword":"角分布的各向异性","originalKeyword":"角分布的各向异性"},{"id":"3a5a7596-6885-4c57-91b3-2ae2cddfe3d5","keyword":"非对称反应体系","originalKeyword":"非对称反应体系"}],"language":"zh","publisherId":"yzhwlpl201603001","title":"并合不变中子质子产额比值角分布各向异性与对称能关系的研究","volume":"33","year":"2016"}],"totalpage":68,"totalrecord":671}