高分子材料科学与工程,
1999, 15(6): 105-107.
聚硅氧烷接枝乙烯基咔唑、十一烯酸乙酯聚合物的荧光光谱
李桂芝
1,
{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"以测量239Pu(n,2n)反应截面为例概述了直接测量的中子法和间接测量的瞬发γ射线法的原理及其优缺点. 阐明了瞬发γ射线法的物理内含, 阐述了如何从测量的σm(k)约束程序中的反应机制及其参数和得到最小漏失的σm(0), 并分析了σn, 2n的不确定度的来源及其贡献. 瞬发γ射线法适合不易采用直接方法的中子核数据的测量, 具有一定的普适性. ","authors":[{"authorName":"石宗仁","id":"42642ddc-252b-4327-842b-4b85493224b0","originalAuthorName":"石宗仁"}],"doi":"10.3969/j.issn.1007-4627.2002.01.009","fpage":"42","id":"d3ed3a2a-ec30-4a25-a081-eeb0e5ff814c","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":"e1533019-004a-4f86-91cc-9fdd52252861","keyword":"中子源","originalKeyword":"中子源"},{"id":"db708827-2db5-45c1-806f-cfb9f927822d","keyword":"
裂变元素","originalKeyword":"裂变元素"},{"id":"e1fca3f9-0fcd-4c99-90db-f1c9b9ff30e9","keyword":"HPGe反康普顿谱仪阵列","originalKeyword":"HPGe反康普顿谱仪阵列"},{"id":"ac733be3-db1b-4cce-bea7-f6727aad9731","keyword":"γ射线产生截面","originalKeyword":"γ射线产生截面"},{"id":"899bfee3-67f4-4392-8b00-c2290ceee9b5","keyword":"核数据计算程序","originalKeyword":"核数据计算程序"}],"language":"zh","publisherId":"yzhwlpl200201009","title":"一个测量中子核数据的新技术--瞬发γ射线法","volume":"19","year":"2002"},{"abstractinfo":"有关热核
裂变的研究与反应堆中的诱发
裂变,天体环境中的
裂变,以及超重
元素的合成等密切相关.热核
裂变的研究通常是基于Bohr-Wheeler的统计
裂变理论.而统计模型的研究十分依赖唯像的能级密度和位能面.因此,提出基于微观的有限温度的能量密度泛函理论计算热核的
裂变寿命.可以微观自洽地计算出温度相关的
裂变位垒高度,曲率,集体质量参数.基于虚自由能法,从低温到高温的
裂变寿命可以由一个统一的框架给出.展示了在
裂变研究中温度相关
裂变位垒的重要性,并讨论了微观描述热核
裂变的前景.","authors":[{"authorName":"裴俊琛","id":"6163d0ac-b318-4762-9fc5-08eba62d19dc","originalAuthorName":"裴俊琛"},{"authorName":"朱怡","id":"3ecb1cb2-80fc-45f1-a449-9e2888eb5bb0","originalAuthorName":"朱怡"}],"doi":"10.11804/NuclPhysRev.34.01.087","fpage":"87","id":"65fb36f0-528d-46b4-9a09-e3ba5d9c89f7","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":"822c84b3-4b3f-47fe-9e9c-f75cdab3fae4","keyword":"
裂变寿命","originalKeyword":"裂变寿命"},{"id":"3bde2292-7240-4fb0-a92b-de242cd38698","keyword":"诱发
裂变","originalKeyword":"诱发裂变"},{"id":"5573e538-2e4f-49c6-a3e1-657b1c046b83","keyword":"虚自由能法","originalKeyword":"虚自由能法"}],"language":"zh","publisherId":"yzhwlpl201701016","title":"微观描述热核
裂变寿命","volume":"34","year":"2017"},{"abstractinfo":"通过分析和计算锕系核
裂变截面和全套中子反应截面获取了一组锕系核的
裂变位垒参数.在此基础上, 广泛收集实验
裂变位垒参数, 通过比对和评价, 推荐了本组的129个核素(109Cd-255Fm)的实验
裂变位垒参数.此外, 对收集的不同
裂变位垒参数作了分析与评价, 推荐了7组实验和1组模型计算的
裂变位垒参数, 并组建了中国评价核参数库
裂变位垒参数子库(CENPL-FBPL).","authors":[{"authorName":"苏宗涤","id":"bc8d76ed-a552-4f10-a381-f95f0fa48f27","originalAuthorName":"苏宗涤"},{"authorName":"王书暖","id":"a8bd94d9-a4ef-4ab5-8f51-714e7a7b3cc9","originalAuthorName":"王书暖"},{"authorName":"冯仁发","id":"cc812f02-98df-4ba4-a073-6697f90ef885","originalAuthorName":"冯仁发"},{"authorName":"周建明","id":"a912f97d-0ae9-4199-a814-366ec3d840fe","originalAuthorName":"周建明"},{"authorName":"史淑梅","id":"6fbd9bbe-6633-40ed-9bbf-9cb9fe939de4","originalAuthorName":"史淑梅"},{"authorName":"王斌","id":"83cac97a-36b1-4ec2-a1c4-e1b93d923f06","originalAuthorName":"王斌"},{"authorName":"朱耀银","id":"d7dc4adc-bb75-49be-b38e-8242f556f62f","originalAuthorName":"朱耀银"},{"authorName":"李支文","id":"f837fb5f-caf4-4790-8c1c-0c553103f6dd","originalAuthorName":"李支文"},{"authorName":"黄忠甫","id":"b36993ed-1a2f-4e12-aad9-3f33890f2c30","originalAuthorName":"黄忠甫"},{"authorName":"刘建峰","id":"e1ac28ed-0f72-4641-ac19-f44a9615260e","originalAuthorName":"刘建峰"},{"authorName":"戴能雄","id":"a9a531b2-4d75-43e4-99a0-c2963086c0c4","originalAuthorName":"戴能雄"},{"authorName":"王豫生","id":"c4b2b39b-0f9c-4104-9c82-e34286350acb","originalAuthorName":"王豫生"},{"authorName":"张本爱","id":"006afe34-4a73-40bc-97bd-fbf4f3f5429c","originalAuthorName":"张本爱"}],"doi":"10.3969/j.issn.1007-4627.2004.04.043","fpage":"407","id":"60c3e772-9795-4a04-9680-e12c279017bc","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":"c1ba2aa8-8960-400d-9e20-c3062f9a3ab8","keyword":"
裂变","originalKeyword":"裂变"},{"id":"0fd93802-5920-427f-9ccb-9d4f877a3d08","keyword":"
裂变位垒参数","originalKeyword":"裂变位垒参数"},{"id":"449f78c5-7968-4feb-b8ff-b0e0d7fb5472","keyword":"参数库","originalKeyword":"参数库"}],"language":"zh","publisherId":"yzhwlpl200404043","title":"
裂变位垒参数的推荐和
裂变位垒参数库","volume":"21","year":"2004"},{"abstractinfo":"在重离子熔合反应中,准
裂变与熔合过程之间相互竞争.在双核模型中,常常在主方程中加入Kramers公式来描述准
裂变.但只有当准
裂变位垒足够高时,该公式才能成立.在本工作中,把弹靶核的间距作为独立的动力学变量,通过求解主方程来自洽地同时描述双核模型向全熔合和准
裂变过程的演化,因此检验了Kramers公式的适用条件.此外,在重离子熔合反应过程中,把动力学形变的演化和核子的转移过程都看成是耗散过程,在系统的势能面的约束下,同时求解含有动力学形变参量和质量不对称度参量的一系列主方程.研究显示了动力学形变对准
裂变质量分布的直接影响,得到了与实验观测值符合得很好的计算结果.","authors":[{"authorName":"郁琳","id":"ba9ecdc3-8ca7-4432-9e34-d3b041aa851c","originalAuthorName":"郁琳"},{"authorName":"甘再国","id":"e879c367-082f-4a09-bab4-32a813391e94","originalAuthorName":"甘再国"},{"authorName":"黄明辉","id":"6d2e3bad-57eb-4076-8897-ef61a934f534","originalAuthorName":"黄明辉"},{"authorName":"张鸿飞","id":"7751bb65-dbc8-44d2-8fd6-3f5ded6f3db1","originalAuthorName":"张鸿飞"},{"authorName":"李君清","id":"4dd8bdea-8142-4e5e-b49c-52fdcaab4d1c","originalAuthorName":"李君清"}],"doi":"10.11804/NuclPhysRev.30.03.299","fpage":"299","id":"09d9dc8e-4899-4d7d-83b2-0d040d744b25","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":"8a129ff1-ea66-4d38-8be5-aa1957fdec4f","keyword":"超重核","originalKeyword":"超重核"},{"id":"8e1e51af-5f05-49f9-b3d4-f13524f0701b","keyword":"准
裂变","originalKeyword":"准裂变"},{"id":"29471130-42c9-475b-8753-14435dbbc375","keyword":"熔合","originalKeyword":"熔合"},{"id":"3b6ab385-ae03-4f83-8d3b-592d0713d1ef","keyword":"主方程","originalKeyword":"主方程"},{"id":"63c2857c-b33c-4684-a055-a5bb1e54dda0","keyword":"驱动势","originalKeyword":"驱动势"}],"language":"zh","publisherId":"yzhwlpl201303010","title":"重离子熔合反应系统中的准
裂变","volume":"30","year":"2013"},{"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":"介绍了用于中子探测器效率刻度的薄壁快脉冲~(252)Cf
裂变电离室.在用飞行时间法测量中子能谱时,该
裂变电离室能够给出~(252)Cf
裂变中子发射时刻信号,输出脉冲上升时间约为5.5 ns,电离室由厚度为0.15 mm的不锈钢构成.测试结果表明,对
裂变碎片的探测效率为99.2%,α粒子脉冲幅度和碎片脉冲幅度可清晰分开.","authors":[{"authorName":"顾先宝","id":"8892dadc-d3af-4d28-91ee-aa8e32722d27","originalAuthorName":"顾先宝"},{"authorName":"黎光武","id":"9906af40-c1e6-479a-92fa-97d921eac08d","originalAuthorName":"黎光武"},{"authorName":"张文慧","id":"e9ea6102-cd6d-4e99-adbe-356982e5fb16","originalAuthorName":"张文慧"},{"authorName":"张刚","id":"f0f4063d-c9b1-4f5b-9519-5c7a9492e015","originalAuthorName":"张刚"},{"authorName":"陈宇","id":"06e644be-2505-4a06-b228-3337e2cd7dc5","originalAuthorName":"陈宇"}],"doi":"","fpage":"37","id":"8ad62f5a-4376-47a0-8551-882e0b037222","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":"2c1a4f3d-41fe-43c9-8f1a-0a5ea97c4611","keyword":"效率刻度","originalKeyword":"效率刻度"},{"id":"eb765aba-d342-4c73-82d5-b3b97aa3859c","keyword":"~(252)Cf
裂变电离室","originalKeyword":"~(252)Cf裂变电离室"},{"id":"03dd22cb-bcd7-4021-8c5d-7db2fd5c6458","keyword":"飞行时间法","originalKeyword":"飞行时间法"}],"language":"zh","publisherId":"yzhwlpl200901008","title":"薄壁快脉冲~(252)Cf
裂变电离室的研制及性能测试","volume":"26","year":"2009"},{"abstractinfo":"本实验同时研究了40Ar+209Bi反应中周边碰撞和中心碰撞两者产生的关联
裂变碎片,以及其与α粒子的再关联.对裂交碎片质量分布和能量分布随热
裂变核初始温度演化的系统分析,发现中心碰撞和周边碰撞所形成的热核存在着不同的
裂变行为.","authors":[{"authorName":"邬恩九","id":"19d9753c-0843-4b36-803b-138d322202d1","originalAuthorName":"邬恩九"},{"authorName":"郑纪文","id":"e02f7d61-9121-4ce7-8bd5-fd9dafb4d12d","originalAuthorName":"郑纪文"},{"authorName":"肖志刚","id":"5ef36d45-7adf-425b-8b5f-7f76310d41d3","originalAuthorName":"肖志刚"},{"authorName":"张纯","id":"613d9575-d26f-461e-8c1e-1f3a11d56c94","originalAuthorName":"张纯"},{"authorName":"谭继廉","id":"5f5304a3-69b3-4161-9ba8-aace432d66fc","originalAuthorName":"谭继廉"},{"authorName":"尹淑芝","id":"461c3d9a-f917-49de-87c0-29fcd46c0518","originalAuthorName":"尹淑芝"},{"authorName":"王素芳","id":"4240ad6b-66c0-4043-b447-ae551b41bf5b","originalAuthorName":"王素芳"},{"authorName":"靳根明","id":"21acfc09-5d02-4dd8-9956-e67a087aeecb","originalAuthorName":"靳根明"},{"authorName":"殷旭","id":"1ebfebc2-40af-4866-a1f8-5ac324181b0e","originalAuthorName":"殷旭"},{"authorName":"宋明涛","id":"50a2b1ab-9896-4680-9e00-9ef56a156851","originalAuthorName":"宋明涛"},{"authorName":"金卫阳","id":"788e54e1-6b16-41e9-9b92-5e3bd82ac1af","originalAuthorName":"金卫阳"},{"authorName":"朋兴平","id":"a3c59325-2527-4cfa-896c-cef26ad880bf","originalAuthorName":"朋兴平"},{"authorName":"李祖玉","id":"68b035fd-3e6e-4f2a-977b-41bf08a94f2d","originalAuthorName":"李祖玉"},{"authorName":"吴和宇","id":"e52af24a-ce9f-4e24-adbe-f96dede9f00c","originalAuthorName":"吴和宇"},{"authorName":"贺智勇","id":"32309a0f-1754-46b2-bfdb-d6968bdc67a0","originalAuthorName":"贺智勇"},{"authorName":"江栋兴","id":"50a26621-2209-4dd3-9d1c-8688c705fccb","originalAuthorName":"江栋兴"},{"authorName":"钱兴","id":"bbe5ef83-9fe4-43fd-a850-b0bb098cd361","originalAuthorName":"钱兴"}],"doi":"10.3969/j.issn.1007-4627.2000.01.012","fpage":"56","id":"d0cadc90-7eb6-4494-a54b-96e46857803e","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":"55ae5847-faa9-4012-9c8f-7a82ad36bf82","keyword":"中能重离子反应","originalKeyword":"中能重离子反应"},{"id":"c053442c-3d37-4d89-87c0-fab43b0ecf8f","keyword":"热核
裂变","originalKeyword":"热核裂变"},{"id":"382f007e-4d28-4a9b-8229-5dc888de5f04","keyword":"高激发态核衰变","originalKeyword":"高激发态核衰变"}],"language":"zh","publisherId":"yzhwlpl200001012","title":"重离子周边碰撞和中心碰撞引起的不同
裂变行为","volume":"17","year":"2000"},{"abstractinfo":"系统总结了研究近垒和垒下重离子熔合
裂变反应碎片各向异性的异常的结果,提出一个新的预平衡
裂变模型,成功地解释了碎片各向异性的异常现象.但对异常宽峰结构不能说明,有待进一步研究.","authors":[{"authorName":"张焕乔","id":"f6ccab9f-ea39-483d-92cf-5ac794598f2c","originalAuthorName":"张焕乔"},{"authorName":"刘祖华","id":"3520de80-e55b-4b08-b55b-97dc28e161dd","originalAuthorName":"刘祖华"},{"authorName":"许谨诚","id":"a0902051-fa38-4a39-ac0c-0ba8a4300ffb","originalAuthorName":"许谨诚"},{"authorName":"吕骏","id":"b2012342-cae6-46a3-a88a-38e57966e968","originalAuthorName":"吕骏"},{"authorName":"钱兴","id":"c0e1616d-0fc4-4215-9ce9-ccbc3207a58b","originalAuthorName":"钱兴"},{"authorName":"阮明","id":"06d531e5-70d5-45bc-89da-751adb30e937","originalAuthorName":"阮明"},{"authorName":"谯愚","id":"a6c96e70-6519-4a33-bee0-034f23960bcc","originalAuthorName":"谯愚"},{"authorName":"林承键","id":"2f747583-ed55-43a5-9798-1064f9c49a6b","originalAuthorName":"林承键"},{"authorName":"徐侃","id":"935fc9e2-f0e3-4354-aeb4-68e681cd67a9","originalAuthorName":"徐侃"}],"doi":"10.3969/j.issn.1007-4627.2000.01.002","fpage":"1","id":"c6612417-9cc7-4656-a00e-07c830339283","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":"dab12dea-83f4-4a1b-9dc0-8761c9cb7ba0","keyword":"熔合
裂变","originalKeyword":"熔合裂变"},{"id":"70882a73-526e-4bcc-a978-beaba0dd0018","keyword":"碎片各向异性","originalKeyword":"碎片各向异性"},{"id":"d8b6d934-fb18-499a-a479-e17868b35751","keyword":"激发函数","originalKeyword":"激发函数"},{"id":"1348ec6b-7f03-4bd7-aea0-f6b55db5d48e","keyword":"均方自旋","originalKeyword":"均方自旋"},{"id":"0f1496cc-1d7a-449b-8756-db526f902905","keyword":"预平衡
裂变","originalKeyword":"预平衡裂变"}],"language":"zh","publisherId":"yzhwlpl200001002","title":"近垒和垒下重离子熔合
裂变碎片各向异性的异常","volume":"17","year":"2000"},{"abstractinfo":"基于推广的液滴模型(GLDM)理论框架,计算了292-310122同位素链的α衰变和自发
裂变的半衰期.计算时的基本输入量为两子核的质量数和电荷数以及反应Q值.GLDM能很好地描述重核和超重核的α衰变和自发
裂变过程.计算结果表明,A< 308时在同位素链上N=176~184的区域α衰变为主要衰变模式.A> 308时在同位素链上自发
裂变为主要衰变模式.308122是α衰变和自发
裂变的分界点,暗示着N=184为中子幻数.","authors":[{"authorName":"包小军","id":"2a29d97d-e3c7-4cb6-b4e2-68a209db1e57","originalAuthorName":"包小军"},{"authorName":"张海飞","id":"c0421c4b-507c-4ad8-97fd-8d724c5f0486","originalAuthorName":"张海飞"},{"authorName":"李君清","id":"261a37d9-712e-4b25-ab93-7f680ee101e1","originalAuthorName":"李君清"},{"authorName":"张鸿飞","id":"7e3640a5-241f-42d1-a701-556987d72488","originalAuthorName":"张鸿飞"}],"doi":"10.11804/NuclPhysRev.30.03.318","fpage":"318","id":"7d3635bd-5c1f-4428-9774-d1830ce25a3c","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":"bd514d95-014b-4e90-9d7c-08a234c2c951","keyword":"超重核","originalKeyword":"超重核"},{"id":"7388ac67-a288-4053-bd2b-601e52de8bb8","keyword":"推广的液滴模型","originalKeyword":"推广的液滴模型"},{"id":"779f7f6d-b6ed-4570-8474-ac374a9988a0","keyword":"α衰变","originalKeyword":"α衰变"},{"id":"5d7ab6aa-8a02-4cd6-9767-eb541d6616de","keyword":"自发
裂变","originalKeyword":"自发裂变"}],"language":"zh","publisherId":"yzhwlpl201303013","title":"超重核292-310122同位素链的α衰变和自发
裂变的竞争","volume":"30","year":"2013"},{"abstractinfo":"在对诱发铀部件
裂变信号的测量原理及特点分析的基础上,开展了基于BP神经网络的诱发铀部件
裂变时间关联信号特征参量分析处理的研究工作。采用无偏估计方法,计算信号的自相关函数和互相关函数,再利用比较法和导数法两种特征量提取方法,提取出不同状态下
裂变信号的特征参量,借助于BP神经网络模式识别应用原理进行训练和预测。理论分析和研究结果表明:基于比较法和导数法获得的特征参量能较好地反映诱发铀部件
裂变信号的特征;用BP神经网络对
裂变信号进行模式识别,取得了较高的正确率,验证了此方法的有效性和合理性。","authors":[{"authorName":"谢军华","id":"2fcc416b-e5b6-4ee5-a750-7bb78aaf0de9","originalAuthorName":"谢军华"},{"authorName":"刘知贵","id":"fc46e5d2-c2c0-4326-9f98-9c6a37184235","originalAuthorName":"刘知贵"},{"authorName":"任立学","id":"d3257608-ed41-4c2f-a2f0-ad8881d22591","originalAuthorName":"任立学"},{"authorName":"张活力","id":"250d11ad-ee67-4fc8-9bb8-4220bc197bb7","originalAuthorName":"张活力"}],"doi":"","fpage":"202","id":"b1dd6229-a198-4333-9db3-34f11e33c7c0","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":"9e6996ab-83fc-4b67-a14f-94c027addd65","keyword":"铀部件","originalKeyword":"铀部件"},{"id":"43131e17-0a6c-459c-bf66-59573907f594","keyword":"BP神经网络","originalKeyword":"BP神经网络"},{"id":"0033fecd-46f2-42d6-8d35-d7bd623f7cb5","keyword":"特征提取","originalKeyword":"特征提取"},{"id":"d4726df6-4b3c-472f-b980-8847b5575539","keyword":"模式识别","originalKeyword":"模式识别"}],"language":"zh","publisherId":"yzhwlpl201202017","title":"基于BP神经网络的诱发铀部件
裂变信号特征分析及识别","volume":"29","year":"2012"}],"totalpage":1369,"totalrecord":13684}
