{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用多孔氧化铝模板法制备了两种1,3,5-trinitrotoluene(TNT)敏感的荧光共轭聚合物Tri-phenylamine-CO-para-biphenyene vinylene(TPA-PBPV)和Triphenylamine-co-para-phenyl-ene vinylene(TPA-PPV)的纳米线阵列结构.纳米线的直径在80~100 nm之间,高度在150-200nm之间.和固体薄膜相比,TPA-PBPV和TPA-PPV荧光光谱都发生了蓝移,TPA-PBPV的发射峰从485变为455 nm,PPV的峰从495 nm变为475 nm.蓝移的发光表明聚合物纳米线阵列可以抑制低能量陷阱,有望提高材料的传感性能.","authors":[{"authorName":"陈磊","id":"75220cd1-5cf2-4be7-b3ef-fe47d3140e94","originalAuthorName":"陈磊"},{"authorName":"朱德峰","id":"95fb3dad-15da-4b1c-be7d-07b59eb5818a","originalAuthorName":"朱德峰"},{"authorName":"程建功","id":"aadf50fd-1557-45b4-b5ef-97767db9b41e","originalAuthorName":"程建功"},{"authorName":"赵建龙","id":"69a89daa-f2e0-4df0-bf92-2f5163654495","originalAuthorName":"赵建龙"}],"doi":"10.3969/j.issn.1007-4252.2009.02.007","fpage":"143","id":"9904c21b-eb50-48d6-945d-cea2ae16da75","issue":"2","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 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MeV能区的中子探测效率曲线。对于把锂玻璃探测器测量得到的飞行时间谱转化为中子束流能谱,是一项非常重要的工作,同时为探测器效率刻度提供了新方法。","authors":[{"authorName":"张奇玮","id":"df9a7f18-2a75-421a-9a52-1d662b6e8131","originalAuthorName":"张奇玮"},{"authorName":"贺国珠","id":"e5206676-3663-4a86-82f1-50fcbcec09b7","originalAuthorName":"贺国珠"},{"authorName":"阮锡超","id":"ee8107ed-81b9-42e5-a5f2-522de1fb1dfd","originalAuthorName":"阮锡超"},{"authorName":"李霞","id":"606672e7-3dc6-4521-bfdf-749d34097166","originalAuthorName":"李霞"},{"authorName":"任杰","id":"adb1c4f2-825e-4593-a138-bcd233ccc0df","originalAuthorName":"任杰"},{"authorName":"周祖英","id":"9f4e2bb3-4d5c-41a3-8655-5e1b4d0ba866","originalAuthorName":"周祖英"}],"doi":"10.11804/NuclPhysRev.30.02.156","fpage":"156","id":"c232433f-6f1f-4c7f-b4cd-d0c67cb40ff2","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 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(10%)气体条件下,利用55Fe源5.9keV的X射线对MICROMEGAS探测器进行了初步测试:计数率大于103Hz的条件下,计数率坪长达到280V;当栅极电压在800V时能量分辨为30%;当增益高于104时打火率低于10-4;PCB板读出条周期为400μm条件下的位置分辨好于120μm.结果表明,研制的MICROMEGAS探测器达到了初步设计的基本要求.","authors":[{"authorName":"鲁辰桂","id":"ef9334ab-2770-4706-91de-227f06095bc3","originalAuthorName":"鲁辰桂"},{"authorName":"段利敏","id":"22dac115-2855-468b-977a-296f6b98a52c","originalAuthorName":"段利敏"},{"authorName":"杨贺润","id":"504ea806-1c8e-4f27-986d-c493758f4534","originalAuthorName":"杨贺润"},{"authorName":"马朋","id":"587a701d-b534-46ee-9bb0-6d742152f1c8","originalAuthorName":"马朋"},{"authorName":"唐述文","id":"088a4239-ff7a-4b07-9243-834e7f457f19","originalAuthorName":"唐述文"},{"authorName":"耿朋","id":"9d6426f1-9843-4c7f-bf7e-32aa417380bb","originalAuthorName":"耿朋"},{"authorName":"胡荣江","id":"dd9b944b-8163-496b-833e-2e70ea02f86d","originalAuthorName":"胡荣江"},{"authorName":"张金霞","id":"975622d3-9d2e-4d3b-aac4-14ba350daf14","originalAuthorName":"张金霞"},{"authorName":"李祖玉","id":"8eeea70a-2ac0-4070-b97f-c43651233afd","originalAuthorName":"李祖玉"}],"doi":"","fpage":"68","id":"5da22335-08b9-4017-b16b-665f27275348","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 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硅单晶的质量进行了讨论。","authors":[{"authorName":"李强","id":"e50b51b4-711c-41f8-a521-555e94021f94","originalAuthorName":"李强"}],"doi":"10.3969/j.issn.0258-7076.2001.03.020","fpage":"238","id":"636307e6-a7f9-40e7-bfcf-fc4d1bb2da54","issue":"3","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"df9f44ea-d45d-4cc2-a109-554917c3a1bd","keyword":"探测器级","originalKeyword":"探测器级"},{"id":"a8ffd2bb-e3ac-498b-a481-4aa91ad343d3","keyword":"NTD","originalKeyword":"NTD"},{"id":"3430471d-8a70-44e9-8156-8c39567cb306","keyword":"硅单晶","originalKeyword":"硅单晶"}],"language":"zh","publisherId":"xyjs200103020","title":"探测器级NTD硅单晶的研制","volume":"25","year":"2001"},{"abstractinfo":"CVD金刚石紫外探测器有极强的辐射硬度及耐腐蚀性,在宽禁带半导体紫外探测器中占有重要地位.本文主要对金刚石紫外探测器的发展进展、探测机理、电极模式及应用领域做了简要回顾.","authors":[{"authorName":"楼燕燕","id":"cb7d5df5-646e-430f-8289-65cb263efc92","originalAuthorName":"楼燕燕"},{"authorName":"王林军","id":"cf86526d-e619-46f3-bc17-618d0d69e4e6","originalAuthorName":"王林军"},{"authorName":"张明龙","id":"3f11c4d9-5c49-4ae5-b3ab-e1458e1b7d29","originalAuthorName":"张明龙"},{"authorName":"顾蓓蓓","id":"8bc67319-5136-433b-962d-538dfdba5bd7","originalAuthorName":"顾蓓蓓"},{"authorName":"苏青峰","id":"9a4b8deb-60cf-404b-b190-684ea2283587","originalAuthorName":"苏青峰"},{"authorName":"夏义本","id":"adc73da5-0ec4-4343-ba69-a1a6e23c5a9b","originalAuthorName":"夏义本"}],"doi":"","fpage":"442","id":"8346bc35-ca7f-47cd-ac56-ea887279e563","issue":"z1","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"dce89c43-f281-4ccb-8117-c71bf00c2536","keyword":"紫外探测器","originalKeyword":"紫外探测器"},{"id":"61ed05b1-32e2-4e65-95e8-228831965674","keyword":"金刚石膜","originalKeyword":"金刚石膜"},{"id":"8188da86-a0b8-4b3a-abc2-af18c97292a6","keyword":"辐射硬度","originalKeyword":"辐射硬度"}],"language":"zh","publisherId":"gncl2004z1113","title":"CVD金刚石紫外探测器","volume":"35","year":"2004"},{"abstractinfo":"研制了一种新型的带有阻抗性电极的TGEM--RETGEM(Thick GEM with Resistive Electrodes)探测器,阻抗性电极可以有效地保护探测器和前端电子学免于偶尔放电的损伤.对RETGEM探测器进行了初步测试,其中包括计数率、能量分辨、增益以及打火率.结果表明,探测器达到了设计的基本要求.","authors":[{"authorName":"刘达","id":"b7171917-f287-4adc-8314-dc6997cc590c","originalAuthorName":"刘达"},{"authorName":"鲁辰桂","id":"0c8588cc-6931-4af7-bfe9-1aa510efd72e","originalAuthorName":"鲁辰桂"},{"authorName":"段利敏","id":"7e9d1849-c4ab-4ca4-9346-0e8af1eb14c5","originalAuthorName":"段利敏"},{"authorName":"胡荣江","id":"b7d3cc6a-4fe9-4867-b76b-b2a20f536fe6","originalAuthorName":"胡荣江"},{"authorName":"鲁彦霞","id":"418dfa0f-519a-4a2a-a29d-2507c92156d0","originalAuthorName":"鲁彦霞"},{"authorName":"李祖玉","id":"5c6f0a22-d987-4475-b493-50d15fd4e7ee","originalAuthorName":"李祖玉"},{"authorName":"张金霞","id":"4da3246a-2ae9-4984-a7f1-d9861a7eb573","originalAuthorName":"张金霞"},{"authorName":"胡正国","id":"024f3a5e-d581-41d4-ad5e-145865f511ae","originalAuthorName":"胡正国"},{"authorName":"孙友梅","id":"7067ed07-2542-44fb-8475-230fc2a4c1d8","originalAuthorName":"孙友梅"},{"authorName":"徐治国","id":"f905e7ce-7b55-4514-845d-f5832ec139ec","originalAuthorName":"徐治国"},{"authorName":"马朋","id":"78020a96-507b-4717-9bb1-9b85c13cee45","originalAuthorName":"马朋"},{"authorName":"耿朋","id":"d134b265-9b03-4af1-9970-860ab56c44c2","originalAuthorName":"耿朋"},{"authorName":"唐述文","id":"3132e588-7f73-49de-a27d-23997ef0eab6","originalAuthorName":"唐述文"},{"authorName":"杨贺润","id":"4025f6b1-17dd-4027-8aa4-108d9b40fd1f","originalAuthorName":"杨贺润"},{"authorName":"王文昕","id":"3f8aabad-d4dc-40ea-96df-fb4a621482ff","originalAuthorName":"王文昕"},{"authorName":"周建荣","id":"c4e12a26-37a2-40aa-96ea-2d1f75d48ee4","originalAuthorName":"周建荣"}],"doi":"","fpage":"319","id":"6defa81e-45a1-4b9b-bcbd-4813e3e86877","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":"4c289900-26c8-442a-ba2d-30fa359316eb","keyword":"RETGEM探测器","originalKeyword":"RETGEM探测器"},{"id":"25d21c9e-d654-4009-b425-6e4ff6220706","keyword":"计数率","originalKeyword":"计数率"},{"id":"c96bb389-7a78-44eb-ba65-8b67df3bdec6","keyword":"能量分辨","originalKeyword":"能量分辨"},{"id":"ee69859c-8915-40dd-b155-f68049c5d0ed","keyword":"增益","originalKeyword":"增益"},{"id":"35379cf8-5b32-40e5-9f46-38138c32aaa3","keyword":"打火率","originalKeyword":"打火率"}],"language":"zh","publisherId":"yzhwlpl200904009","title":"RETGEM探测器的初步测试","volume":"26","year":"2009"},{"abstractinfo":"为了在弱中子场和有限小空间内测量绝对裂变率,制作了俘获探测器,研究了俘获探测器的性能。介绍了用于中子测量的俘获探测器和铅屏蔽室,以及该探测器系统在特定条件下测量裂变反应率的结果,并与裂变室测量结果进行了比较。探讨了铅屏蔽室大小对测量结果的影响。","authors":[{"authorName":"王玫","id":"39980bdf-7a77-4f0f-a540-e29ed51e772e","originalAuthorName":"王玫"},{"authorName":"温中伟","id":"1e378eb0-2651-45ca-89d5-a9c039aa572d","originalAuthorName":"温中伟"},{"authorName":"林菊芳","id":"0c362461-ba4a-4fde-9e09-ed4ba6432209","originalAuthorName":"林菊芳"},{"authorName":"蒋励","id":"70673962-4903-4d33-aa4c-5795c836b605","originalAuthorName":"蒋励"},{"authorName":"刘荣","id":"015fb716-b203-4338-961b-296a8f015760","originalAuthorName":"刘荣"},{"authorName":"王大伦","id":"0c27087e-60c5-49fb-831f-521133265cfa","originalAuthorName":"王大伦"}],"doi":"","fpage":"169","id":"a221b221-46dd-43f9-aae0-b3435b793225","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":"81cd4cbb-8c48-4a36-9cd7-e2869f2a3cb2","keyword":"中子探测","originalKeyword":"中子探测"},{"id":"0b93b3be-1d88-4b69-a3b4-8f3a4a4784ae","keyword":"俘获探测器","originalKeyword":"俘获探测器"},{"id":"65ae1fce-e1f8-4285-be1d-602422db1ed5","keyword":"裂变反应率","originalKeyword":"裂变反应率"}],"language":"zh","publisherId":"yzhwlpl201202011","title":"用于中子测量的俘获探测器研究","volume":"29","year":"2012"},{"abstractinfo":"ZnO是一种新型的宽带隙半导体光电材料,可用于制作高性能的紫外探测器,是未来半导体紫外探测器的发展重点.介绍了ZnO基紫外探测器常见的器件结构、探测材料的基本特性和主要制备方法,以及器件近期的研究进展,并扼要分析了其今后的发展方向.","authors":[{"authorName":"赵懿琨","id":"f6f79642-1c3f-4c74-a036-1d154ede47cf","originalAuthorName":"赵懿琨"},{"authorName":"连洁","id":"26599501-594f-45fe-b740-7ba167749af1","originalAuthorName":"连洁"},{"authorName":"张飒飒","id":"2583720a-bdb9-4d20-99ed-493329d4853e","originalAuthorName":"张飒飒"},{"authorName":"王公堂","id":"d7139b25-2b7f-4ea3-9626-762d7239d23d","originalAuthorName":"王公堂"},{"authorName":"宫文栎","id":"9fe9c82c-45ab-42b4-90e6-4784742c5e93","originalAuthorName":"宫文栎"},{"authorName":"于元勋","id":"3f927a67-bd75-4544-8120-d144be8306da","originalAuthorName":"于元勋"},{"authorName":"卜刚","id":"444037ce-3601-4100-b1e0-07af44facb57","originalAuthorName":"卜刚"}],"doi":"","fpage":"109","id":"7fa5d436-241e-464d-ae73-4510a7960ff7","issue":"1","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"b93caa36-9734-4df7-85bb-e3f699b55583","keyword":"ZnO薄膜","originalKeyword":"ZnO薄膜"},{"id":"8fa43d1d-ea66-40bf-881f-d3113755a571","keyword":"紫外探测器","originalKeyword":"紫外探测器"},{"id":"4861db45-39e4-4bf9-8098-14c09ffa46ec","keyword":"宽带隙半导体","originalKeyword":"宽带隙半导体"}],"language":"zh","publisherId":"cldb200601029","title":"ZnO基紫外探测器的研究进展","volume":"20","year":"2006"},{"abstractinfo":"采用蒙特卡罗方法模拟计算光子的探测效率需对高纯锗(HPGe)探测器进行准确的建模.模拟计算研究了HPGe晶体长度对探测效率的影响,并在空间不同的测量位置对放射源进行测量,将模拟计算与实验测量相结合,对探测器晶体的尺寸进行调整,获得了HPGe探测器晶体的模拟计算的准确尺寸,并在122~1 332 keV能量范围内对模拟结果进行了验证.结果表明,在此能量范围内HPGe探测器的探测效率的模拟计算值与实验测量值的相对偏差大多数在5%内,并建立点源探测效率与探测器轴向距离的关系.","authors":[{"authorName":"牟婉君","id":"3da2e426-9ae4-4495-bdf2-dc41484ec64c","originalAuthorName":"牟婉君"},{"authorName":"李梅","id":"efa891e1-ab83-4ded-b2a1-d217091a7c0f","originalAuthorName":"李梅"},{"authorName":"钟正坤","id":"d87bbc37-405d-4be3-9d06-107d6911c456","originalAuthorName":"钟正坤"}],"doi":"10.11804/NuclPhysRev.30.01.058","fpage":"58","id":"d7072983-5925-47e1-b63e-4f535832ee2f","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 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