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  4. 电磁感应合成TiC增强铁基复合材料的研究

材料导报, 2010, 24(z1): 493-495.

电磁感应合成TiC增强铁基复合材料的研究

赵显鹏 1, , 耿建林 2, , 龚光辉 3, , 李黎明 加速器(HIMM)高频系统31.02 MHz回旋加速器谐振腔已完成设计加工和腔体的老炼,并投入正常运行.高频腔体的设计峰值Dee电压要求达到70 kV,但是Dee电压准确计算比较困难,可以通过CST仿真软件对腔体进行模拟得到高频腔体的RP/Q0值,结合输入到腔体的实际功率,计算出腔体的实际电压值.为了验证Dee电压的准确性,在相同的腔体输入功率条件下,利用韧致辐射法测量腔体电压,测量结果与计算结果误差在0.6%以内.","authors":[{"authorName":"金鹏","id":"9129421a-4501-4a34-864e-4de6d3a33db8","originalAuthorName":"金鹏"},{"authorName":"王贤武","id":"b3ba4d84-0776-416c-98f8-c8bf52b18431","originalAuthorName":"王贤武"},{"authorName":"田瑞霞","id":"0405b37a-c8d4-491f-8b21-974902b94ddb","originalAuthorName":"田瑞霞"},{"authorName":"许哲","id":"a089627a-700f-4e33-85e4-83a39b336dfd","originalAuthorName":"许哲"},{"authorName":"冯勇","id":"274206db-49ea-4b91-8a14-89c5f478d0e8","originalAuthorName":"冯勇"},{"authorName":"兰涛","id":"b0a40829-f7f2-48c1-909b-45d1f7cea735","originalAuthorName":"兰涛"}],"doi":"10.11804/NuclPhysRev.32.03.301","fpage":"301","id":"32fec254-7fda-4ae7-ae6a-4243b734d5bb","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":"ff9ef09a-02d8-473d-98b2-54f4513b4ff7","keyword":"回旋加速器","originalKeyword":"回旋加速器"},{"id":"5e082edf-3176-4d04-bf07-b3b6e21941a6","keyword":"品质因数","originalKeyword":"品质因数"},{"id":"90d6a6a8-220e-4324-b5f2-628655003f88","keyword":"Dee电压","originalKeyword":"Dee电压"},{"id":"d5855c5c-f82b-44f3-ab1d-63743934f219","keyword":"分路阻抗","originalKeyword":"分路阻抗"},{"id":"41b21c5f-871c-46e1-9ebc-47547c7c20ce","keyword":"韧致辐射法","originalKeyword":"韧致辐射法"}],"language":"zh","publisherId":"yzhwlpl201503008","title":"31.02 MHz回旋加速器谐振腔Dee电压的标定","volume":"32","year":"2015"},{"abstractinfo":"从加速器运行的角度对兰州重离子加速器HIRFL建成以来所存在的问题进行了总结, 结合放射束物理和冷却储存环CSR对HIRFL的新要求, 从加速器的物理设计方面提出了一些改进方案. 主要问题有: 超低能束流传输的空间电荷效应的影响, 扇聚焦回旋加速器SFC 高频加速电压不对称对束流轨道的影响, 用半频聚束的方式补偿两台回旋加速器的纵向不匹配, 前束线上聚束的工作模式的选取, 强杂散磁场对超低能和低能束流传输的影响, 分离扇回旋加速器SSC注入区过垫补磁场对注入束流轨道的影响, SFC和SSC的单圈引出, 重离子通过剥离膜后的束流损失和束流品质的变坏等.","authors":[{"authorName":"唐靖宇","id":"ffb3da21-622b-4a31-a590-db19db0b3da0","originalAuthorName":"唐靖宇"},{"authorName":"王义芳","id":"6d0d39f6-c899-46ac-94e3-ac53e0d7d730","originalAuthorName":"王义芳"},{"authorName":"尹全民","id":"6d15592e-117e-4ed8-9423-b52624846385","originalAuthorName":"尹全民"}],"doi":"10.3969/j.issn.1007-4627.2000.02.007","fpage":"95","id":"d7eef5f4-a727-43d1-ad6d-c22b966fbb9f","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":"a60b60f1-1f4a-4dd4-b038-4e08eadc03fc","keyword":"空间电荷效应","originalKeyword":"空间电荷效应"},{"id":"df54601f-2c12-47c9-8b1f-0a5e375ac253","keyword":"束流纵向匹配","originalKeyword":"束流纵向匹配"},{"id":"7cf04bdc-12ab-489b-921f-194a3e6837aa","keyword":"杂散磁场","originalKeyword":"杂散磁场"}],"language":"zh","publisherId":"yzhwlpl200002007","title":"HIRFL改造中的加速器物理问题","volume":"17","year":"2000"},{"abstractinfo":"描述了加速器自动调束系统的设计方法, 介绍了加速器调束工作的现状和实现自动调束的意义, 阐述了基于遗传算法进行加速器自动调束的原理和加速器自动调束系统的设计方法, 给出了计算机仿真实验结果, 并指出了自动调束研究的发展方向. ","authors":[{"authorName":"张峡","id":"8c8c7075-ed17-4482-90cf-fe721c537d3e","originalAuthorName":"张峡"},{"authorName":"王义芳","id":"78a851b2-492f-4558-9b3c-a1bf2b3972cb","originalAuthorName":"王义芳"},{"authorName":"黄新民","id":"8c77e79e-4f31-4d9f-8473-2506262c5252","originalAuthorName":"黄新民"}],"doi":"10.3969/j.issn.1007-4627.2002.04.008","fpage":"403","id":"ace29068-617d-487a-b8ad-d2b3b4c8a6a8","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":"253c6cb2-d3aa-4ccb-8da3-e6916d0ba025","keyword":"自动调束","originalKeyword":"自动调束"},{"id":"14cb9cd2-374c-4e3c-b65c-bce94f22c85d","keyword":"加速器控制","originalKeyword":"加速器控制"},{"id":"3d6cb680-073f-4ba6-9143-19dabe8309a4","keyword":"遗传算法","originalKeyword":"遗传算法"}],"language":"zh","publisherId":"yzhwlpl200204008","title":"加速器自动调束系统的研究","volume":"19","year":"2002"},{"abstractinfo":"中国科学院近代物理研究所在现有DG系列电子加速器技术的基础上,通过改进加速结构,研制了一台低能强流电子加速器,其设计指标为500 keV/150 mA。该加速器采用高压发生倒置的结构,并增加了中磁圆盘,提高了电能转换效率。采用了较短的加速管结构,有利于强流电子束的传输,同时使加速器整体更为紧凑。加速器束流调试结果为500 kV/170 mA,完全优于设计指标。","authors":[{"authorName":"俞成山","id":"36e8f24f-463f-45d1-a96d-6ec6c5fe2af8","originalAuthorName":"俞成山"},{"authorName":"李伟峰","id":"1ab9b739-d543-4497-b60d-416c27efe31a","originalAuthorName":"李伟峰"},{"authorName":"曹树春","id":"fe72e629-357c-4fc4-aff6-d17f291d10b8","originalAuthorName":"曹树春"},{"authorName":"李中平","id":"a5a71d60-2281-40d8-a37f-a644c2511205","originalAuthorName":"李中平"},{"authorName":"荆晓兵","id":"36457230-5c55-48fc-b389-717ea3fde4ac","originalAuthorName":"荆晓兵"},{"authorName":"石金水","id":"6ed8bec0-0118-4964-a104-8ba4ef94f43b","originalAuthorName":"石金水"},{"authorName":"杨兴林","id":"24dccc28-304a-44b0-be4e-3f39fe87f837","originalAuthorName":"杨兴林"},{"authorName":"张子民","id":"9e21483b-cd99-4c4e-9b7c-b4574a34fa58","originalAuthorName":"张子民"},{"authorName":"肖荣庆","id":"d0e34bdf-ec7e-4cdd-b5c1-661be98a7c18","originalAuthorName":"肖荣庆"},{"authorName":"申晓康","id":"0c801f51-67e9-4162-a4a6-11fa396c2565","originalAuthorName":"申晓康"},{"authorName":"赵全堂","id":"bdbac436-7546-4e17-a94b-69c25aff498c","originalAuthorName":"赵全堂"},{"authorName":"景漪","id":"9c1e9410-8656-4475-9631-1a4275aae50a","originalAuthorName":"景漪"},{"authorName":"宗阳","id":"3c89af04-f776-4966-91bb-f0317aced8a8","originalAuthorName":"宗阳"},{"authorName":"王燕茹","id":"bf1e5a39-ef89-48e7-b0ee-48b684883cf9","originalAuthorName":"王燕茹"}],"doi":"10.11804/NuclPhysRev.31.01.043","fpage":"43","id":"003e87cc-8b80-4d36-b5bb-8c977d775a38","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":"3ce0931c-4d58-44d7-9d11-44b89cce24b7","keyword":"电子加速器","originalKeyword":"电子加速器"},{"id":"d4aded05-6d2e-4c9f-a605-2f552629c343","keyword":"高压发生","originalKeyword":"高压发生器"},{"id":"48a2c77a-9d2b-4817-a43e-da8e2238644c","keyword":"ANSYS电磁模拟","originalKeyword":"ANSYS电磁模拟"}],"language":"zh","publisherId":"yzhwlpl201401008","title":"低能强流电子加速器的研制","volume":"","year":"2014"},{"abstractinfo":"~(236)U是一种长寿命放射性核素,其半衰期为T_(1/2)=2.342(3)×10~7a,在自然界的含量极微,天然铀中~(236)U /~(238)U的原子比约为~10~(-14).目前,对于~(236)U及其测量的研究报道较少.首先介绍了~(236)U的产生,并对地球中~(236)U的总量进行了估算.概述了~(236)U测定在亿年级中子注量率积分评估、核环境和核活动监测,以及地质学等领域中的重要应用.最后,对国内外加速器质谱(AMS)测量~(236)U的状况进行了综述,报道了中国原子能科学研究院AMS小组通过对同位素干扰鉴别的多方面研究,初步建立了~(236)U-AMS测量方法.","authors":[{"authorName":"王祥高","id":"bfa53f54-080a-4391-a5f6-5fc0da2520ba","originalAuthorName":"王祥高"},{"authorName":"何明","id":"86b56d31-6f3c-4160-a0eb-d43bfd7f18e2","originalAuthorName":"何明"},{"authorName":"李朝历","id":"71a09d1d-bdeb-43fe-a907-f97051282dbf","originalAuthorName":"李朝历"},{"authorName":"王伟","id":"8b4d0801-554c-4212-97c5-e1bddea8fb3b","originalAuthorName":"王伟"},{"authorName":"张大伟","id":"0dd0ff3d-f825-4ef0-a5d7-39968a2dc546","originalAuthorName":"张大伟"},{"authorName":"黄春堂","id":"0c5737a3-9449-4d7a-b8b8-1b2e4ef98daa","originalAuthorName":"黄春堂"},{"authorName":"石国柱","id":"43a28279-8168-4f3e-95dc-05cbb980c3e9","originalAuthorName":"石国柱"},{"authorName":"沈洪涛","id":"af002dab-cb96-4e81-86d6-d63ca7c43393","originalAuthorName":"沈洪涛"},{"authorName":"吴绍雷","id":"f13d0eb6-203f-4cc7-b758-6224b4cebb48","originalAuthorName":"吴绍雷"},{"authorName":"贺国珠","id":"87133c71-45e1-405d-8aab-fd5855bcd726","originalAuthorName":"贺国珠"},{"authorName":"龚杰","id":"94110bdc-8374-45fe-8dd6-94ae6d55e083","originalAuthorName":"龚杰"},{"authorName":"陆丽燕","id":"edc259b0-cac8-4e02-91de-5b79e792ba88","originalAuthorName":"陆丽燕"},{"authorName":"武绍勇","id":"8745db47-a10d-4de3-8fde-f65973b5f08e","originalAuthorName":"武绍勇"},{"authorName":"姜山","id":"a7a8b179-5bee-484b-87d2-5486b2b7da20","originalAuthorName":"姜山"}],"doi":"","fpage":"312","id":"b473f886-5a96-47d0-9171-f996f95b1699","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":"5c64f819-4c77-42a0-943a-360bdfba4c52","keyword":"~(236)U","originalKeyword":"~(236)U"},{"id":"3e3f5ae3-5790-4a44-b125-4960c5260a18","keyword":"加速器质谱","originalKeyword":"加速器质谱"},{"id":"a56a841b-9ba9-454e-881a-45bdb23296e2","keyword":"环境监测","originalKeyword":"环境监测"}],"language":"zh","publisherId":"yzhwlpl200904008","title":"~(236)U及其加速器质谱(AMS)测量","volume":"26","year":"2009"},{"abstractinfo":"电子加速器能量脉动的大小是影响电子加速器稳定可靠运行的重要因素之一.利用R-C串联方法测量能量脉动的结果说明电子加速器的能量脉动测量存在磁场干扰.采用有限元法数值计算了电子加速器中高压发生结构改动前后的磁场干扰值的大小,通过对高压发生结构的改动,最后测量到较真实的能量脉动系数.说明用这种高压发生的三相电子加速器所产生的能量脉动系数可以满足电子加速器正常工作的要求,可以确定能量脉动系数太大不是加速器在强流工作时稳定性变差的主要原因.","authors":[{"authorName":"苏雅龙","id":"bf2c6393-b8b1-486c-9e4a-34eb8ca2f8ef","originalAuthorName":"苏雅龙"},{"authorName":"曹树春","id":"35e75aa7-ec87-409c-8f90-882d3e3696f3","originalAuthorName":"曹树春"},{"authorName":"张子民","id":"b1721a9d-b75a-4cbf-ae00-732ee7436110","originalAuthorName":"张子民"},{"authorName":"刘铭","id":"15943010-3c60-46bc-b588-774cdb640453","originalAuthorName":"刘铭"},{"authorName":"袁平","id":"e48538cc-a25c-48c8-b849-653e2e0ed842","originalAuthorName":"袁平"},{"authorName":"肖荣庆","id":"3d076cdd-8e36-4a2a-a4c5-74b8433a27c0","originalAuthorName":"肖荣庆"},{"authorName":"李中平","id":"7f891839-dff1-482e-aa03-6c6984567d87","originalAuthorName":"李中平"},{"authorName":"王斌","id":"4c2dffc7-bad1-4cf8-bb3f-f40b98ee3e53","originalAuthorName":"王斌"},{"authorName":"杨春明","id":"7bd9a1cd-eb3e-4c0b-8d3e-b9460d9f7ef2","originalAuthorName":"杨春明"},{"authorName":"万明","id":"a22d1b14-4559-4c8d-b9cc-170f5235a4b7","originalAuthorName":"万明"},{"authorName":"张应发","id":"97e21414-3140-450d-a82e-7ecd674c6bd8","originalAuthorName":"张应发"},{"authorName":"景漪","id":"b5e53a59-3831-49d3-85b4-e361eb2ff121","originalAuthorName":"景漪"}],"doi":"","fpage":"210","id":"d4152147-a2e4-4072-a190-2a0df0c3e33c","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":"ea8c76d9-c103-4875-a764-2b6466d9ae17","keyword":"高压电子加速器","originalKeyword":"高压电子加速器"},{"id":"f27cdf8e-c076-464f-bd50-952aa35da900","keyword":"脉动系数","originalKeyword":"脉动系数"},{"id":"6a7b4f51-d998-4f9e-90d8-a84d75c66009","keyword":"有限元法","originalKeyword":"有限元法"},{"id":"edc7538b-a257-45ae-833c-0cef59941b88","keyword":"次级线圈","originalKeyword":"次级线圈"}],"language":"zh","publisherId":"yzhwlpl200903007","title":"大功率高压电子加速器能量脉动测量","volume":"26","year":"2009"},{"abstractinfo":"超导直线加速器腔体几何β选取是否合适,直接影响到所需要的腔体类型(腔型)和腔体的总量,进而影响加速器的造价。采用线性近似的物理模型,并结合粒子群优化算法,开发出一套用来选择腔体几何β的程序。将之运用到中国加速器驱动次临界系统(C-ADS)质子直线加速器的设计中,得出一组最合适的βg和对应的物理设计方案。与现有的设计方案相比,新的设计方案的腔型个数少一个,而腔体总数基本不变,具有一定优势,同时也验证了本模型及优化算法的正确性。","authors":[{"authorName":"李伟","id":"78adac69-2349-4247-bd03-08efd87c5531","originalAuthorName":"李伟"},{"authorName":"王志军","id":"15f92c3b-2787-43e4-9a1e-eff5dc4e2761","originalAuthorName":"王志军"},{"authorName":"何源","id":"d2407715-686b-4901-8502-380b1d9ba103","originalAuthorName":"何源"}],"doi":"10.11804/NuclPhysRev.31.04.482","fpage":"482","id":"600383f1-b209-4b21-8f82-2c765b035e58","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":"a26a0baf-7fe3-4677-a58b-0bb09e01bbb3","keyword":"直线加速器","originalKeyword":"直线加速器"},{"id":"c2531fa8-1c2b-4059-94f1-39ddc133f813","keyword":"C-ADS","originalKeyword":"C-ADS"},{"id":"0461fc8a-ce4b-41f5-83fc-6d90c4e913b8","keyword":"超导腔","originalKeyword":"超导腔"},{"id":"bc34ef75-8902-4e48-a5f1-df6a9231c0bc","keyword":"βg","originalKeyword":"βg"},{"id":"27034b9d-1340-43f6-afc1-840a29fe61d6","keyword":"粒子群优化算法","originalKeyword":"粒子群优化算法"}],"language":"zh","publisherId":"yzhwlpl201404007","title":"超导直线加速器腔体βg选取问题的研究","volume":"","year":"2014"},{"abstractinfo":"研究设计了一种用于硼中子俘获治疗(BNCT)的紧凑型固定磁场交变梯度(FFAG)加速器。首先采用FFAG加速器磁铁的线性简化模型,计算确定了加速器的基本结构参数;再用WINAGILE程序进行了磁聚焦结构的设计和优化,得到了Beta函数、色散函数、包络函数及工作点等;采用MAD程序对设计结果进行了复算,并对两种程序的计算结果作了进一步的对比分析;最后采用ZGOUBI程序进行非线性磁场下粒子追踪。FFAG加速器的超周期为6,能量为11 MeV,场指数k为1.9,周长为11.1795 m,结构紧凑。分析结果表明,优化设计的FFAG加速器达到了预期的设计目标。","authors":[{"authorName":"王坤","id":"cecb182b-484b-4b2a-95a0-289908495bff","originalAuthorName":"王坤"},{"authorName":"宋明涛","id":"1af03397-5297-4acb-a6eb-0987c09ee890","originalAuthorName":"宋明涛"},{"authorName":"张金泉","id":"229c69dd-7e61-4a5f-8687-c541d24ef457","originalAuthorName":"张金泉"},{"authorName":"盛丽娜","id":"0c4f7800-e6a8-402d-bcc9-c80105557811","originalAuthorName":"盛丽娜"}],"doi":"10.11804/NuclPhysRev.31.01.032","fpage":"32","id":"26e52c7c-ccf8-470f-afa5-ef29fcb6a837","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":"ebda390f-45b9-4b6c-8788-8f60713b66c3","keyword":"FFAG","originalKeyword":"FFAG"},{"id":"f579f9c9-5823-4483-9b4a-383c692a433b","keyword":"Lattice","originalKeyword":"Lattice"},{"id":"d42f833e-c93c-444b-9f01-c769cd0f7e72","keyword":"硼中子","originalKeyword":"硼中子"},{"id":"0cb74c19-b897-42dd-9e20-76733eae2f3e","keyword":"硼中子俘获治疗","originalKeyword":"硼中子俘获治疗"}],"language":"zh","publisherId":"yzhwlpl201401006","title":"用于硼中子俘获治疗的FFAG加速器Lattice设计","volume":"","year":"2014"},{"abstractinfo":"目前处于设计阶段的哈尔滨工业大学空间辐照效应装置,其核心部件是由1台10 MeV的注入、1台300 MeV的同步加速器以及输运线构成的加速器装置.同步加速器中引出的质子束流被用于辐照研究.基于装置的概念设计,优化了其同步加速器部分的设计.设计了新的磁聚焦结构,优化了基于新的磁聚焦结构的多圈注入系统的凸轨变化模式,提高了注入效率.为了更好地优化引出束流的时间结构,慢引出系统采用了RF knock-out的方法.为了满足精准辐照的要求,研究了RF Kicker的频率调制,发现RF Kicker的双频调制能使得引出束流更均匀.","authors":[{"authorName":"安宇文","id":"8e5a23d2-f31e-415f-a122-8a3a66722a7e","originalAuthorName":"安宇文"},{"authorName":"纪红飞","id":"3ecf7479-ca63-4095-be02-df8e3e4fc1d6","originalAuthorName":"纪红飞"},{"authorName":"王生","id":"bdfd8315-4d13-40b1-8697-2254378f2c31","originalAuthorName":"王生"},{"authorName":"黄良生","id":"67d6e08d-6ce6-42ac-a709-a06af950535e","originalAuthorName":"黄良生"}],"doi":"10.11804/NuclPhysRev.34.02.158","fpage":"158","id":"cd372a4a-a369-44d7-99b2-a05fd6ab6182","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":"5d56ff0e-2001-478b-b6bd-79a926d8ec1b","keyword":"太空辐照","originalKeyword":"太空辐照"},{"id":"e9cd70d4-e4f4-42fe-b0ea-591f0ed1ba9b","keyword":"磁聚焦结构设计","originalKeyword":"磁聚焦结构设计"},{"id":"123fe639-351f-4fe4-b365-b8ca41bffede","keyword":"多圈注入","originalKeyword":"多圈注入"},{"id":"303477dd-6302-4712-a2b2-0ae7a975b67e","keyword":"慢引出","originalKeyword":"慢引出"},{"id":"49c9683f-2d0b-4484-8e1d-64e821ee856d","keyword":"RFknock-out方法","originalKeyword":"RFknock-out方法"}],"language":"zh","publisherId":"yzhwlpl201702006","title":"300 MeV质子同步加速器概念设计优化","volume":"34","year":"2017"},{"abstractinfo":"从洛仑兹力方程的旋量形式出发, 讨论了电磁场中电荷运动的轴向电场和轴向磁场问题以及平面波的脉冲和Larmor功率.这些问题是研究自共振激光加速器的基础.","authors":[{"authorName":"张德兴","id":"d166fc7b-a98f-414e-8a2a-62fd172e6642","originalAuthorName":"张德兴"}],"doi":"10.3969/j.issn.1007-4627.2005.02.004","fpage":"180","id":"86e4e68b-6b98-4b0a-a734-5cc1ea20b389","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":"fcffa3d3-7a80-48b3-8218-d5f0d76efb1b","keyword":"洛仑兹力方程","originalKeyword":"洛仑兹力方程"},{"id":"67dc398c-62f1-477f-82f8-dcd4475134bd","keyword":"轴向电场","originalKeyword":"轴向电场"},{"id":"e78d4ff5-42b0-4ab5-b1b0-7d804a669f82","keyword":"轴向磁场","originalKeyword":"轴向磁场"},{"id":"4f8dde04-e6c5-4f5d-bc85-ea46208395b0","keyword":"平面波的脉冲","originalKeyword":"平面波的脉冲"},{"id":"78f5cc2f-4b3b-4b9c-8569-88ea12b262a7","keyword":"Larmor功率","originalKeyword":"Larmor功率"}],"language":"zh","publisherId":"yzhwlpl200502004","title":"对于自共振激光加速器中轴向场问题的讨论","volume":"22","year":"2005"}],"totalpage":1331,"totalrecord":13310}