{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"测量系统采用双旋转延迟器结构,通过两个1/4波片的周期变化,对入射光、散射光的偏振态进行调制.由探测光强的25个Fourier分解系数可以计算得到样品的Mueller矩阵.为了检测测量系统的准确性,将测量的16个自由空间Mueller矩阵分量和理想情况下的自由空间Mueller矩阵分量进行比较,并给出了每个矩阵分量的标准误差.最后,通过测量聚四氟乙烯样品板的Mueller矩阵,定量地分析样品的退偏效应.","authors":[{"authorName":"吴云智","id":"2bfb1716-9225-4781-a16f-69f17bbc41b2","originalAuthorName":"吴云智"},{"authorName":"魏庆农","id":"3ddaf04c-40b8-422d-adc3-b26c412ca455","originalAuthorName":"魏庆农"},{"authorName":"汪世美","id":"d03111f6-df08-47b1-bca1-74ed85992c8c","originalAuthorName":"汪世美"},{"authorName":"冯巍巍","id":"2a4000f8-072d-4d74-bf36-0953d2337d97","originalAuthorName":"冯巍巍"}],"doi":"10.3969/j.issn.1007-5461.2007.06.011","fpage":"714","id":"16e54b42-940f-4e48-b12e-14b7e8e82f96","issue":"6","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"a7bc375b-3313-4e95-8f05-259296c73a1e","keyword":"光学偏振","originalKeyword":"光学偏振"},{"id":"ba5af339-20b4-4da3-8f1e-8b442803350b","keyword":"Mueller矩阵","originalKeyword":"Mueller矩阵"},{"id":"7075e2b7-4c8b-4c3b-8d82-4682079cea0c","keyword":"Fourier分解","originalKeyword":"Fourier分解"},{"id":"0587a249-0a45-4aa4-b40c-99bd0cb48558","keyword":"聚四氟乙烯","originalKeyword":"聚四氟乙烯"}],"language":"zh","publisherId":"lzdzxb200706011","title":"用Fourier分解法测量材料表面的Mueller矩阵","volume":"24","year":"2007"},{"abstractinfo":"根据Fresnel唯象旋光理论和Born旋光理论推导出了一个能快速方便地计算单轴旋光晶体光学性质的2×2矩阵--旋光Jones矩阵,与Berreman 4×4矩阵(Born旋光模型)分层计算方法的结果相比,该结果是解析的,这就使得进一步研究其他光学性质变得很方便.详细介绍旋光Jones矩阵的建立过程,并以石英晶体为例,介绍运用该矩阵计算旋光晶体的光学性质的具体过程.该计算方法对于斜入射情况下的无旋光介质和各向同性旋光介质仍然适用.","authors":[{"authorName":"张永胜","id":"0a7b927d-95f0-4f2a-8ced-e76faa95eaca","originalAuthorName":"张永胜"},{"authorName":"朱鹤年","id":"63d356b8-a686-49f1-8fc4-5c1dff0495ca","originalAuthorName":"朱鹤年"}],"doi":"10.3969/j.issn.1007-2780.2003.03.013","fpage":"212","id":"e4ceb740-77dc-4af0-858d-939057b5e07b","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"883b62e3-0b22-411d-ad9d-4c387b2ea2c3","keyword":"旋光性","originalKeyword":"旋光性"},{"id":"cfa94eac-7f93-4144-9c7e-3ed2ddad0b16","keyword":"单轴晶体","originalKeyword":"单轴晶体"},{"id":"9e26fa7e-c0db-4381-beb7-a53676401d7b","keyword":"Berreman 4×4矩阵","originalKeyword":"Berreman 4×4矩阵"},{"id":"804e2126-9ada-4ced-80e2-5fb842c1b162","keyword":"Jones矢量","originalKeyword":"Jones矢量"},{"id":"5dc97a56-af4c-4248-bc17-7111259b4139","keyword":"Jones矩阵","originalKeyword":"Jones矩阵"},{"id":"960a46a9-6c85-492d-8bd6-d7a424504133","keyword":"圆频双折射","originalKeyword":"圆频双折射"}],"language":"zh","publisherId":"yjyxs200303013","title":"计算单轴旋光晶体光学性质的新矩阵:旋光Jones矩阵","volume":"18","year":"2003"},{"abstractinfo":"讨论了密度矩阵的不同定义.建议使用完全密度矩阵、压缩密度矩阵和约化密度矩阵分别描写一个封闭量子体系的、一个系综中平均分子的和一个复合体系中的一个子系统的密度矩阵.强调这与现在人们认为的具有相同压缩密度矩阵的系综是完全等价的结论完全不同,具有相同压缩密度矩阵但是成分不同的系综可以通过系综整体测量来区别.作为一个应用,现在认为现有的核磁共振量子计算中没有纠缠的结论是没有根据的.","authors":[{"authorName":"龙桂鲁","id":"58accd3d-d339-4489-97e2-5d5b4f8be521","originalAuthorName":"龙桂鲁"}],"doi":"10.3969/j.issn.1007-4627.2005.04.012","fpage":"354","id":"d28767e5-45a7-4801-8c50-bec245330168","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":"1bb86621-6495-4951-9b01-d5aff3c63737","keyword":"密度矩阵","originalKeyword":"密度矩阵"},{"id":"7a0aaee4-0914-421d-a970-77e81a3d4f5e","keyword":"压缩密度矩阵","originalKeyword":"压缩密度矩阵"},{"id":"f5462173-4e0c-498e-8047-639a812fb0e5","keyword":"完全密度矩阵","originalKeyword":"完全密度矩阵"},{"id":"dcbb007f-b964-4fe6-9436-60135b2712e3","keyword":"约化密度矩阵","originalKeyword":"约化密度矩阵"},{"id":"1c550e15-c81d-40ca-a8fd-a575c51f7ce4","keyword":"具有相同压缩密度矩阵的系综的不可区分性","originalKeyword":"具有相同压缩密度矩阵的系综的不可区分性"}],"language":"zh","publisherId":"yzhwlpl200504012","title":"量子力学中的密度矩阵与具有相同密度矩阵的系综的可区分性","volume":"22","year":"2005"},{"abstractinfo":"测量矩阵是压缩感知理论的三大核心部分之一,它直接影响着压缩感知理论在图像融合领域的应用.针对随机测量矩阵不易硬件实现的问题,本文设计了一种仅由-1、0和1三个值组成的测量矩阵,并利用基于Gram矩阵的优化方法使其尽可能地与稀疏变换矩阵不相关.实验结果表明,该测量矩阵不仅能提高重构图像的PSNR (Peak Signal toNoise Ratio),而且将其应用于基于压缩感知的图像融合中,在采样率仅为非压缩域50%的情况下仍能取得较好的融合效果.","authors":[{"authorName":"孙永明","id":"4a614a54-dd8b-46ef-96c9-5b8e9e28aec3","originalAuthorName":"孙永明"},{"authorName":"吴谨","id":"f26805bd-c293-47e7-a394-9a098c329833","originalAuthorName":"吴谨"},{"authorName":"刘劲","id":"b15e915b-a08d-4601-a700-4a569b7892b6","originalAuthorName":"刘劲"}],"doi":"10.3788/YJYXS20142903.0461","fpage":"461","id":"7a450084-ebfd-4684-a299-18e903ee0748","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"3133be86-e40f-4408-a372-b4e0c1629b71","keyword":"图像融合","originalKeyword":"图像融合"},{"id":"7b7c8b3b-893c-49a5-85a9-7ad1533349e0","keyword":"压缩感知","originalKeyword":"压缩感知"},{"id":"b72a91a2-c276-4ea4-b5ce-dab44a91cab6","keyword":"测量矩阵","originalKeyword":"测量矩阵"},{"id":"6f912605-ecfb-4c09-9cbe-123dc99e4ab5","keyword":"Gram矩阵","originalKeyword":"Gram矩阵"}],"language":"zh","publisherId":"yjyxs201403025","title":"基于CS测量矩阵优化的图像融合","volume":"29","year":"2014"},{"abstractinfo":"介绍了新型TFT LCD黑矩阵细线化研究.在原有工艺设备的基础上,突破设备局限和工艺瓶颈,通过引入相掩膜技术和背面曝光设备,达到进一步减小黑矩阵线宽的效果.实验测试结果显示:在普通掩膜板设计上应用相位移掩膜板技术,降低透光区边缘衍射和散射现象,使曝光后黑矩阵线宽降低1.0~1.5 μm.在原有工艺基础上添加背面曝光工艺,使黑矩阵材料在显影后进行背面曝光预固化,改善黑矩阵图形形貌,进一步减小黑矩阵线宽达到0.3~0.5 μm.通过新工艺和新设备的引入和应用,黑矩阵线宽整体降低1.5~2.0 pm,达到5.0~5.5 μm,可以满足目前高PPI(单位面积像素个数)产品对透过率和对比度要求.","authors":[{"authorName":"靳福江","id":"e1184da6-d4f0-4d27-919d-96b247f9206a","originalAuthorName":"靳福江"},{"authorName":"卢兵","id":"cbf4ea84-4959-4b52-b265-f17aa905afdf","originalAuthorName":"卢兵"},{"authorName":"朱凤稚","id":"18c2b968-44bd-474c-b678-eaa8b0b1fddb","originalAuthorName":"朱凤稚"},{"authorName":"罗峰","id":"99906a8e-212d-42b6-8b15-8e4eadfe447c","originalAuthorName":"罗峰"},{"authorName":"柳星","id":"9e3c80c9-efc9-4e3f-9660-ec707b699f14","originalAuthorName":"柳星"},{"authorName":"代伟男","id":"a4965b30-bd3c-4097-af2c-1b1ab6706ccf","originalAuthorName":"代伟男"},{"authorName":"刘华","id":"9caa65b4-4d01-48bf-821a-87fbd9649499","originalAuthorName":"刘华"},{"authorName":"范峻","id":"dd964fa1-1636-45ce-89f2-5facc0d95cea","originalAuthorName":"范峻"}],"doi":"10.3788/YJYXS20142904.0521","fpage":"521","id":"97d9dfd6-644f-495a-a443-f9d1c1c7d730","issue":"4","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"ec51d0f2-3838-4aa9-9f99-40c599b0966c","keyword":"黑矩阵","originalKeyword":"黑矩阵"},{"id":"4752f367-2b48-4971-8d54-fe8f536e4844","keyword":"线宽","originalKeyword":"线宽"},{"id":"fa5e0742-5a52-439a-a55e-9c9ead22a8ef","keyword":"相位移掩膜板","originalKeyword":"相位移掩膜板"},{"id":"7bd28c54-febb-4db9-b928-d90a9af00438","keyword":"背面曝光","originalKeyword":"背面曝光"}],"language":"zh","publisherId":"yjyxs201404008","title":"新型TFT-LCD黑矩阵的细线化研究","volume":"29","year":"2014"},{"abstractinfo":"利用Jones矩阵研究磁场作用下液晶的磁控效应,讨论外加磁场与液晶光轴旋转角的关系,并就不同的旋转角进行分析,加以实验测试,给出Jones矩阵的具体形式.通过磁场对液晶的调制,可以根据需要制成各种偏振器件.","authors":[{"authorName":"任广军","id":"a2e8a245-9169-4a01-b5a8-fd71a937fb10","originalAuthorName":"任广军"},{"authorName":"李国华","id":"4a17d44c-9fb4-4312-94ca-68eec9912427","originalAuthorName":"李国华"}],"doi":"10.3969/j.issn.1007-2780.2003.05.008","fpage":"357","id":"b9d733e7-af8e-4cf1-8558-7785bae604c6","issue":"5","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"a0b632a0-943f-4ff3-866f-0a84e1b14cd3","keyword":"液晶","originalKeyword":"液晶"},{"id":"d79d7c80-678b-41bf-b6d1-d9ddd7004871","keyword":"Jones矩阵","originalKeyword":"Jones矩阵"},{"id":"95653ca9-5e09-4ff1-b3eb-140bb65a2812","keyword":"磁场","originalKeyword":"磁场"}],"language":"zh","publisherId":"yjyxs200305008","title":"液晶磁控效应的Jones矩阵研究","volume":"18","year":"2003"},{"abstractinfo":"提出了一种有效提高开口率的新型黑矩阵方式的设计思想. 与传统黑矩阵相比, 在不增加工序和增大工艺难度的基础上, 提高了开口率. 同时, 通过对黑矩阵尺寸的优化设计,得到了较好的视角特性. 将这种方式的黑矩阵应用于40.9cm(16.1英寸)SXGA(1 280×3RGB×1 024)全彩色液晶显示屏, 可使开口率提高6%.","authors":[{"authorName":"王刚","id":"a0552e3a-94fb-464a-9a32-40120fd8c459","originalAuthorName":"王刚"},{"authorName":"杨虹","id":"7b7953c8-a2eb-4506-94fd-69cb94684487","originalAuthorName":"杨虹"},{"authorName":"凌志华","id":"716c0780-4b89-4679-af84-aec1660157f8","originalAuthorName":"凌志华"},{"authorName":"杨柏梁","id":"580d6045-e1aa-47a4-9f34-c16e7d2ea322","originalAuthorName":"杨柏梁"},{"authorName":"黄锡珉","id":"cec57e08-e752-4db4-a9a3-f4e4702a7d62","originalAuthorName":"黄锡珉"}],"doi":"10.3969/j.issn.1007-2780.1999.03.002","fpage":"162","id":"899b4912-6daa-498b-ba6d-be98599bf6ca","issue":"3","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"5a8b1687-4ff2-4b47-a6ea-ff46caefc98b","keyword":"黑矩阵","originalKeyword":"黑矩阵"},{"id":"2090b54d-3ded-46fd-8120-64febd77c59f","keyword":"对比度","originalKeyword":"对比度"},{"id":"e7e8dff3-c0ff-4572-898d-3812806e0f12","keyword":"开口率","originalKeyword":"开口率"},{"id":"611fedb8-d3c4-4cdc-b199-fe16cbce2e89","keyword":"视角特性","originalKeyword":"视角特性"}],"language":"zh","publisherId":"yjyxs199903002","title":"高开口率TFT LCD的黑矩阵设计","volume":"14","year":"1999"},{"abstractinfo":"粒子的光散射是光学检测中的一个重要内容.T矩阵方法被广泛地应用于粒子的光散射计算中.在计算T矩阵的方法中,最流行的方法称之为扩展边界法(EBCM),但是它很大的程度上只适合轴对称和近似球形的粒子.提出了一种新的计算T矩阵的方法.将积分式直接作用在粒子表面,粒子表面进行三角形网格化,并通过三角形网格将积分转换为求和.这种方法能够计算非轴对称甚至接近真实形状粒子的光散射.","authors":[{"authorName":"严绍辉","id":"b03e3369-e518-4795-86c1-72c777650c21","originalAuthorName":"严绍辉"},{"authorName":"林晓春","id":"13592c29-b077-421d-8e77-a25643a0370c","originalAuthorName":"林晓春"},{"authorName":"苏宇","id":"8c45d75a-404f-48f8-a79f-ad58fd7745d9","originalAuthorName":"苏宇"},{"authorName":"安毓英","id":"c10507e1-7888-46e7-a0cb-fd868d5cd05d","originalAuthorName":"安毓英"}],"doi":"10.3969/j.issn.1007-5461.2005.05.032","fpage":"821","id":"2b33c19a-bf3c-4551-a718-9e52cf929479","issue":"5","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"dce440d1-df9f-44a0-b0d2-f2ddc839f425","keyword":"光散射","originalKeyword":"光散射"},{"id":"43571b55-f488-46a6-aa74-8ef6c784e2fb","keyword":"光学检测","originalKeyword":"光学检测"},{"id":"bfa18df6-3265-480b-9244-e1c074f078a6","keyword":"T矩阵","originalKeyword":"T矩阵"},{"id":"6fff1137-c9a0-4cc0-92a2-7beb892172c8","keyword":"三角形网格","originalKeyword":"三角形网格"},{"id":"0a2f28ac-63d9-46cc-a2be-1f746c2af24e","keyword":"非轴对称","originalKeyword":"非轴对称"}],"language":"zh","publisherId":"lzdzxb200505032","title":"微元法计算粒子光散射的T矩阵","volume":"22","year":"2005"},{"abstractinfo":"本钢7号高炉技术人员通过对布料矩阵的理论探索,对布料轨迹进行理论计算,初步推算出不同档位对应的溜槽倾动角度;同时结合现有的原燃料条件和送风制度进行适当改进,根据合理煤气流分布原则,实现上下部制度相结合,在实际生产过程中依据高炉炉内顺行情况进行逐步调整和优化,摸索出适合七号高炉自身生产条件的布料矩阵,控制好边缘和中心气流发展程度,保证煤气流的稳定分布,高炉炉况长期稳定顺行,各项技术经济指标大幅度改进,高炉实现高效、优质、低耗生产.","authors":[{"authorName":"张福","id":"26ddb29a-e974-4f6e-b4b4-9909882eac68","originalAuthorName":"张福"}],"doi":"10.3969/j.issn.1000-6826.2011.06.004","fpage":"10","id":"16ded7ea-5cd2-4484-b478-3dc0b9fd3165","issue":"6","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"939af453-b610-4044-8171-aa44d05e064d","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"jssj201106004","title":"本钢7号高炉布料矩阵的研究及应用","volume":"","year":"2011"},{"abstractinfo":"综述了量子态的控制和矩阵分解之间的关系.着重介绍了近年采用的新的分解技术,基于群论的Carton分解和基于数值线性代数的cosine-sine分解.介绍了用这些矩阵分解技术在量子信息科学特别是量子线路研究方面所取得的成果.这些研究成果对量子纠缠动力学、量子态的控制、量子网络的优化起到了很大的作用.最后具体地对2-qutrit门的Cartan分解作了讨论,并将它们写成指数形式.","authors":[{"authorName":"狄尧民","id":"96b38211-45ff-4ebf-ada9-8648c9220f3c","originalAuthorName":"狄尧民"},{"authorName":"张洁","id":"31447c77-ddc8-439c-87ce-5c7a46e5089d","originalAuthorName":"张洁"},{"authorName":"魏海瑞","id":"63a6999a-7925-4d86-bca1-c18d58bb6a93","originalAuthorName":"魏海瑞"}],"doi":"10.3969/j.issn.1007-5461.2008.05.001","fpage":"513","id":"b929234d-7785-4ef3-9d7e-dd3dd6dddbc3","issue":"5","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"e37da793-fc59-4216-a70e-7b187f830568","keyword":"量子信息","originalKeyword":"量子信息"},{"id":"cdb310e9-f620-4e83-a093-ef616bf70be6","keyword":"Cartan分解","originalKeyword":"Cartan分解"},{"id":"8fd1eeb3-95cc-42ba-a26e-428d671bbc11","keyword":"cosine-sine分解","originalKeyword":"cosine-sine分解"},{"id":"a90b099a-c9f3-4db7-9e21-cc12c5d8e86b","keyword":"2-qutrit门","originalKeyword":"2-qutrit门"}],"language":"zh","publisherId":"lzdzxb200805001","title":"量子态控制中的矩阵的分解","volume":"25","year":"2008"}],"totalpage":62,"totalrecord":616}