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帖子M.Sc。放射物理学文凭b''物理大学理学系,OU现代世界中的全国会议数学
本次会议旨在为整个印度的学者建立一个平台,以探索,分享和讨论各种数学领域的各种新兴问题和发展。它试图通过确定关键问题,可行的解决方案和机会来指导未来的研究。现代世界中为期两天的全国数学会议:应用和挑战将深入研究许多数学概念和工程应用的重要组成部分,引起广泛的兴趣。它是代数,真实分析,复杂分析,数值方法,变异方法,流体力学,弹性问题,优化问题和计算机科学来交换思想和信息的专家论坛。向来自各个工程和科学领域的参与者开放,会议致力于将来自全国各地的研究人员,数学家,科学家,工程师和从业人员汇集在一起,以介绍他们的最新研究。
乌干达科技与管理大学
h) 在线考试将通过大学电子学习系统 (http://elearning.utamu.ac.ug) 进行。考试应在预定考试日期前 2 天上传到大学电子学习系统。i) 应设置视频会议,使用 Zoom 或其他方式,以监控考试过程。j) 考试说明应在考试日之前通过电子邮件发送给考生,以便学生准备好笔记本电脑/电脑进行在线考试或了解虚拟房间的位置/链接。k) 考生对在线考试所需的技术设备和设置负全部责任
帖子M.Sc。放射物理学文凭 b'' 物理大学理学系,OU 现代世界中的全国会议数学
该部门的推力区域是材料科学和固态物理学。以下是该部门各个研究小组进行的研究领域。a)铁四和多铁材料b)纳米材料c)聚合物电解质d)显示材料:e)玻璃f)薄膜和气体传感器材料开发了主要的研究基础设施:1。ftir bruker 2。UV-VIS分光光度计Shimodzu 3。扫描电子显微镜(Zeiss)4。X射线衍射仪(粉末)XPERT加5。差分扫描比色表(DSC)Netzsch 6。热重量分析仪(TGA)7。Spectro-Fluoro光度计RF 6 9.原子力显微镜(AFM)Shimodzu 10。RF磁控溅射单元ENI,辉瑞11。高真空和UHV系统(本地)12。自旋涂料单元(本地)13。高温真空炉14。p-e循环示踪海洋印度15。磁化率
模块手册物理大师(科学硕士)
4.116。现代数据分析方法,无ext。Exercises (Minor) - M-PHYS-102126 .....................................................206 4.117.现代光谱法:Astroparticle Physics的应用-M-Phys-106047 ................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................. 207 4.118。Molecular Spectroscopy - M-PHYS-102337 .................................................................................................................................209 4.119.Nano-Optics - M-PHYS-102146 ...................................................................................................................................................... 210 4.120.Nano-Optics (Minor) - M-PHYS-102147 ........................................................................................................................................ 211 4.121.超出标准模型的新光颗粒,无需练习-M-Phys-105833 .................................................................................................................................................................... 212 4.122。Nonlinear Optics - M-ETIT-100430 ................................................................................................................................................213 4.123.标准模型(次要)-M-Phys-105639的非苏翼对称扩展。Particle Physics I - M-PHYS-102114 .............................................................................................................................................. 216 4.125.粒子物理II-风味物理,带有Ext。粒子物理II-风味物理,带有Ext。Particle Physics I (Minor) - M-PHYS-102115 ................................................................................................................................218 4.126.Exercises - M-PHYS-102422 .......................................................................220 4.127.练习(次要)-M-PHYS-103183 .................................................................................................................................................................................................................... 221 4.128。粒子物理II-风味物理,无ext。Exercises - M-PHYS-102154 .................................................................222 4.129.粒子物理II-风味物理,无ext。练习(次要)-M-PHYS-102155 ....................................................................................................................................................................................................................................................... 223 4.130。粒子物理II-超出标准模型的物理学,带有Ext。Exercises - M-PHYS-105939 ................................224 4.131.粒子物理II-超出标准模型的物理学,带有Ext。练习(次要)-M-PHYS-105940 .................................................................................................................................. 225 4.132。粒子物理II-超出标准模型的物理学,没有EXT。练习-M-Phys-105937 .................................................................................................................................................................. 226 4.133。粒子物理II-超出标准模型的物理学,没有EXT。练习(次要)-M-Phys-105938 ........... 227 4.134。粒子物理II- LHC的顶级夸克和喷气机,带有Ext。Exercises - M-PHYS-104088 .........................................228 4.135.粒子物理II- LHC的顶级夸克和喷气机,带有Ext。练习(次要)-M-PHYS-104089 ............................................................................................................................................................................... 230 4.136。粒子物理II- LHC处的顶级夸克和喷气机,无ext。Exercises - M-PHYS-104086 ...................................232 4.137.粒子物理II- LHC处的顶级夸克和喷气机,无ext。练习(次要)-M-Phys-104087 ..................................................................................................................................................................................................................................................................................................................................................................... 234 4.138。粒子物理II -W,Z,colliders的希格斯,带有ext。Exercises - M-PHYS-104084 ........................................................ 236 4.139.粒子物理II -W,Z,colliders的希格斯,带有ext。练习(次要)-M-PHYS-104085 .................................................................................................................................................................................................................... 238 4.140。粒子物理II -W,Z,山脉处的希格斯,无ext。练习-M-Phys-104081 ......................................................................................................................................................................................................................................................................................................................................................................................................................................... 239 4.141。粒子物理II -W,Z,山脉处的希格斯,无ext。练习(次要)-M-PHYS-104082 ................................................................................................................................................................................................. 241 4.142。Particle Physics with Extra Dimensions - M-PHYS-106055 .....................................................................................................242 4.143.Photovoltaics - M-ETIT-100513 ......................................................................................................................................................243 4.144.Physics beyond the Standard Model, with Exercises - M-PHYS-106727 .............................................................................244 4.145.Physics beyond the Standard Model, without Exercises - M-PHYS-106728 .......................................................................245 4.146.Physics of Seismic Instruments - M-PHYS-102358 ...................................................................................................................246 4.147.Physics of Seismic Instruments (Minor) - M-PHYS-102653 .................................................................................................... 248 4.148.Physics of Semiconductors, with Exercises - M-PHYS-102131 .............................................................................................. 250 4.149.Physics of Semiconductors, with Exercises (Minor) - M-PHYS-102130 ................................................................................252 4.150.Physics of Semiconductors, without Exercises - M-PHYS-102301 ........................................................................................253 4.151.colliders和计算方法的精确现象学,并进行练习-M-Phys-105640 ........................................................................................................................ 254 4.152。collider和计算方法的精确现象学,练习(次要)-M-Phys-105642 ... 255 4.153。在山脉和计算方法中的精确现象学,没有练习-M-Phys-105641 ....................................................................................................................................................................................................................................... 256 4.154。Quantum Detectors and Sensors - M-PHYS-106193 .................................................................................................................257 4.155.Quantum Detectors and Sensors (Minor) - M-PHYS-106194 ..................................................................................................258 4.156.Quantum Optics at the Nano Scale, with Exercises (Minor) - M-PHYS-106509 .................................................................260 4.158.Quantum Optics at the Nano Scale, with Exercises - M-PHYS-106508 ............................................................................... 259 4.157.nano量表的量子光学元件无需练习-M-Phys-106510 .................................................................................................................................................................... 261 4.159。Seismic Data Processing with Final Report (Graded) - M-PHYS-104186 .............................................................................262 4.160.Seismic Modeling - M-PHYS-105227 ............................................................................................................................................ 264 4.161.地震建模(次要)-M-Phys-105228 ..................................................................................................................................................................................................................................... 265 4.162。Seismics - M-PHYS-106326 .............................................................................................................................................................266 4.163.Seismics (Minor) - M-PHYS-106325 ...............................................................................................................................................267 4.164.Seismology - M-PHYS-105225 ........................................................................................................................................................268 4.165.Seismology (Minor) - M-PHYS-105226 .........................................................................................................................................269 4.166.Selected Topics in Meteorology (Minor, ungraded) - M-PHYS-104578 ............................................................................... 270 4.167.Selected Topics in Meteorology (Second Major, graded) - M-PHYS-104577 .......................................................................272 4.168.凝结物理学中的软件工程-M-Phys-106833 ....................................................................................................................................................................................................................................................................................................................................... 274 4.169。Software Engineering in Condensed Matter Physics (Minor) - M-PHYS-106834 ...............................................................275 4.170.Solid State Quantum Technologies - M-PHYS-104857 .............................................................................................................276 4.171.Solid State Quantum Technologies (Minor) - M-PHYS-104858 .............................................................................................. 277 4.172.Solid-State Optics - M-PHYS-102408 ........................................................................................................................................... 278 4.173.固态光学元件(次要)-M-Phys-102409 ......................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................... 280 4.174。Specialization Phase - M-PHYS-101396 .......................................................................................................................................281 4.175.Spin Transport in Nanostructures - M-PHYS-102293 ...............................................................................................................282
M.Sc化学无机化学CH(IC)101T 2023 ... iaec。 生物多样性研究中心研究和保护Telangana国家生物多样性 遗传与遗传疾病医院... 遗传与遗传疾病医院... Chand Pasha博士 PGRRCDE-Indermission Notification I阶段I 2024-25。 sandeepta burgula Sandhya Annamaneni博士M.Sc,博士,AFTAS助理... b'' 帖子M.Sc。放射物理学文凭 b'' 物理大学理学系,OU 现代世界中的全国会议数学
14。使用危险药物(使用基于DNA的药物或潜在的人类病原体,需要记录在制度生物安全委员会(IBC)的批准。对于每个类别,必须确定所需的药物和生物安全水平,适当的治疗措施以及处置受污染的食物,动物废物和尸体的处置方式)。如果您的项目涉及使用以下任何提及的代理,请附上各自机构的批准证书的副本:
M.Sc.加尔各答物理大学2018
datta,Prithwish Dastidar,Arkadip Majumder,Maharghya Dyuti Das,Pratikrit Manna,Subhasis Roy,Polymer Engineering ISSN:2191-0340(接受)(接受)。(如果1.624)。(6)对可再生能源对可持续发展的环境影响的综述,Debabrata Gayen Rusha Chatterjee,Subhasis Roy,国际环境科学与技术杂志,https://doi.org/10.1007/s13762-023762-023-023-05380-Z。(如果3.519)(7)HPMC介导的ZnCl 2可能将Pb 2+掺杂代替环境友好的卤化物钙钛矿太阳能细胞制造“ Shyamal Datta,Mouli Mitra,Subhasis Roy,ECS ECS,固态科学与技术杂志,2023年,2023年,第2023卷,第2023卷,12,第10期,第1页。 10500510。(如果2.070)。(8) Synthesis, characterization, and density functional theory calculation studies of a novel Rb-based lead halide perovskite material, Swastik Paul, Shibsankar Mondal, Souhardya Bera, Ankit Saha, Ridipt Mishra, Arkadip Majumder, Milan Kumar Mandal, Subhasis Roy , Chemistry of Inorganic Materials, Elsevier.2023,第1卷,100015,(9)开发2D纳米材料的路线图,以准备有效的光催化剂,Spisismita Mondal,Souhardya Bera,Subhardya Bera,Subhasis Roy,Samiconductotor Processing in Amiciconductor处理的材料科学,第168、2023、2023、107834(IF 4.62)。(10) Morphological tuning and defect-free lead halide perovskite by surface passivation for solar cell fabrication, Shyamal Datta, Mouli Mitra, Subhasis Roy , Ionics, Spinger, volume 29, pages, 4397–4405 , 2023, DOI 10.1007/s11581-023-05116-6 (IF 2.39 ).(11)水和废水处理作者的光催化作者:Preetam Datta,Subhasis Roy,催化研究2023; 3(3):020; doi:10.21926/cr.2303020。(12)用于大规模的含有有机和重金属离子的废物污水的一声协同处理,Yang ding,Soumyajit Maitra,Chunhua Wang,Runtian Zheng Zheng,Tarek Barakat,Tarek Barakat,Tarek barakat,Subhasis Roy seconcadic,liian lie-liian liian lie-liian seconciplian liian cecraciping clacion,(12)含有有机和重金属离子的废物污水的大规模协同处理的双功率光催化剂第179–192页(2023)(如果8.273)(13)对第三代光伏技术的全面综述,Arko de,Jyoti Bhattacharjee,Sahana R. Chowdhury和Subhasis Roy,化学工程研究杂志,杂志 (14)Bhattacharjee J,Roy S.使用可变的材料方法来应对气候变化。 垫子。 SCI。 res。 印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。 Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。 , 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。(12)含有有机和重金属离子的废物污水的大规模协同处理的双功率光催化剂第179–192页(2023)(如果8.273)(13)对第三代光伏技术的全面综述,Arko de,Jyoti Bhattacharjee,Sahana R. Chowdhury和Subhasis Roy,化学工程研究杂志,杂志(14)Bhattacharjee J,Roy S.使用可变的材料方法来应对气候变化。垫子。SCI。 res。 印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。 Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。 , 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。SCI。res。印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。, 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。
物理大纲 - 新加坡
1.3物理教育物理学的目的和价值是一门基本科学,与理解自然世界有关。可以应用少数基本原则和定律来解释和预测广泛的物理事件和现象。物理学的基本理论构成了许多现代技术的基石,并负责各种科学技术领域的实际应用和发展。主题使学生了解了科学过程的调查,推理,分析和评估,这些技能可转移且对日常生活有用。它还发展出态度和倾向,例如批判性思维和逻辑分析,奇怪和询问的思想以及解决问题并掌握复杂概念的能力。物理学研究和实践中的一个独特特征是广泛使用模型,包括但不限于数学语言表达的模型,以解释观察并做出预测。模型是抽象科学理论与现实世界的观察和经验之间的桥梁。模型可以通过实验进行测试,并且必须与可用证据一致。因此,他们可以通过新的证据来改变和发展。学习者被认识到使用模型中固有的假设和局限性,因为它们简化了复杂的现实世界现象。对模型在物理学学习中使用的知识和理解可以转移到其他学科,例如对生物过程,天气模式,地震,甚至人或金融市场的运动进行建模。1.4的目标是高级物理学教学大纲寻求在学生中发展与科学实践相关的理解,技能,道德和态度,使他们能够使他们成为现实世界中物理学的实践应用,b)b)加深对物理学的兴趣;
第二十一届国际数学物理大会
Scott Armstrong(纽约大学) Jaqueline Bloch(巴黎萨克雷大学) 丁健(北京大学) Vojkan Jakšić(麦吉尔大学)和 Claude-Alain Pillet(土伦大学) Karol Kozlowski(里昂高等商学院) Eugenia Malinnikova(斯坦福大学) Phan Thành Nam(慕尼黑大学) Hermann Nicolai(波茨坦马克斯-普罗维登斯理工学院引力物理系) Leonid Parnovski(伦敦大学学院) Daniel Remenik(智利大学) Steve Shkoller(加州大学戴维斯分校) Maryna Viazovska(洛桑联邦理工学院) Michael Walter(波鸿鲁尔大学) Lauren Williams(哈佛大学) 尤建功(南开大学) Maciej Zworski(加州大学伯克利分校)
