| 查看: 2319 | 回复: 20 | |||
| 【有奖交流】积极回复本帖子,参与交流,就有机会分得作者 athena615 的 10 个金币 ,回帖就立即获得 1 个金币,每人有 1 次机会 | |||
| 当前只显示满足指定条件的回帖,点击这里查看本话题的所有回帖 | |||
[交流]
奥地利招聘硕士,待遇1545欧每月,另有餐补,免费咖啡,牛奶,茶
|
|||
|
奥地利招聘硕士 https://www.xing.com/jobs/graz-m ... etasurface-77823262 Master Thesis - Inverse Design Metasurface (f/m/d) Temporary, Full-time · VILLACH Your future responsibilities During the past decades, metamaterial has shown great potential in the field of optical acoustic material science and so on benefiting from the fantastic properties beyond the natural materials. Inverse design can transform a traditional design into an automatic optimization design based on a mathematical model for obtaining high-performance functionalities, exploring novel topological features, and even discovering new physical mechanisms, allowing it to break through or overcome the limitations of artificial and empirical designs. Inverse meta-material design has been demonstrated for versatile wave and mechanical response, including high-performance photonic waveguide, filter, MMI and metasurfaces, and so on. The future development of this field requires reverse design. Through topology optimization and machine learning, our goal is to develop large-scale, multi-functional, layered Meta Materials with customized functional characteristics. We have designed many metalenses with regular shapes, and aim to further improve the overall performance through simulation and deep learning. Specific optimization methods are based on our previous design. A mathematical figure of merit is used to describe the quality of a device's performance (FOM). The design method entails running a forward simulation of Maxwell’s equations for a specific configuration of the scatterers to calculate the FOM, and back-propagating through the physical equations to optimize the FOM and, subsequently the device’s performance, by updating the geometry. From other research1 we can see that we can get a breakthrough in the structure of our cognition, to achieve better performance. Your profile Bachelor’s degree in the field of optical sciences, physics, electrical engineering, or a similar field Experience with the optical design using standard design software such as Lumerical, CST, or HFSS Experience in programming Python, Matlab, knowledge in machine learning would be welcomed Good oral and written English skills Important Facts about SAL Start of Employment: Immediately. Limited position: Duration 6 months. This position is endowed with a gross annual salary of 1.545.- / month, based on the collective agreement for research ("Forschungs-Kollektivvertrag"  .Home Office possible. 4.- /day food allowance in restaurants / 2.- /day in supermarkets. Free Coffee/Milk/Tea. About us Silicon Austria Labs (SAL) is a top research center for Electronic Based Systems (EBS). At three locations (Graz, Villach, Linz), SAL is conducting research along the entire EBS value chain in the areas of sensor systems, power electronics, RF (radiofrequency) systems, system integration and embedded systems to develop future-oriented solutions for industrial production, health, energy, mobility, safety and more. SAL brings together key players from industry, science and research and thus valuable expertise and know-how and conducts cooperative, application-oriented research along the value chain. Cooperative projects are co-financed by SAL and enable a fast and unbureaucratic project start. SAL is thus shaping the high-tech location Austria and Europe and developing the future Innovation is our top priority and so are our employees. We are a family-friendly company and support the compatibility of work and family as much as possible. That is why we have been awarded the Work and Family Certificate until 2023. But we are constantly working on new measures to offer our employees an environment where they feel good, healthy and motivated. You want to get more SAL insights? We are looking forward to receiving your application! Thank you for your interest in becoming part of the Silicon Austria Labs GmbH family. Please fill out the following short form. If you have difficulties uploading your data, please send an email to human.resources@silicon-austria.com. |
回复此楼» 猜你喜欢
材料与化工(0856)304求B区调剂
已经有6人回复
-
265求调剂
已经有11人回复
-
一志愿天津大学材料与化工275求调剂
已经有19人回复
-
材料工程307,求调剂
已经有5人回复
-
一志愿安徽大学材料工程专硕313分,求调剂的学校
已经有7人回复
-
一志愿山东大学105500药学专硕,总分302求调剂
已经有13人回复
-
313分生物学求调剂
已经有7人回复
-
315食品工程求调剂
已经有7人回复
-
化工0817调剂
已经有7人回复
-
一志愿211,0860总分286食品工程专业求调剂
已经有8人回复
» 抢金币啦!回帖就可以得到:
-
招聘有机合成人员,新成立部门,上升空间大
+1/80
-
有机化- 陆红健课题组诚招2026级、2027级博士研究生及博士后
+1/80
-
东营诚征结婚对象
+1/73
-
高校教师
+1/71
-
2026年植物保护学/农业昆虫与害虫防治/农药学/植物病理学相关专业招收硕士研究生
+1/69
-
深圳理工大学梁国进课题组(成会明院士团队)诚聘科研助理教授、博士后
+1/32
-
成都高校IMRC团队接收调剂研究生
+1/31
-
武汉理工大学汽车工程学院低碳能源与光电传感实验室2026博士招生
+1/18
-
2026年北京石油化工学院环境学科-水污染控制工程方向课题组欢迎您
+1/17
-
食品科学与工程083200-297分
+1/12
-
(国家级人才团队 )医药与生物技术方向 “申请-考核”制博士研究生招生
+1/9
-
天津大学浙江研究院(宁波)诚聘高分子/化学/材料方向博士后、青年特聘研究员
+1/8
-
中科院深圳先进技术研究院-宁波诺丁汉大学2026年联合培养博士研究生招生
+1/6
-
浙江大学物理学院 汪银桥课题组 招收软凝聚态物理与统计物理方向 研究生和博士后
+1/5
-
大理大学博士招生
+1/4
-
总分291英一、数二-中核论文(导师一作、本人二作)-一志愿211学硕-自我介绍详细
+1/3
-
CSC-UTT : CNRS 法国国家科学研究中心/utt 特鲁瓦工程技术大学 CSC博士phd全奖招生
+1/2
-
浙江大学基础医学院杨林课题组诚聘合成药物化学方向科研助理
+1/2
-
[交流] 坐标北京 北京化工大学,诚聘机械类、材料类,化工类博后一位,青年教师一位
+1/2
-
层流压差式流量测控产品在大气 PM2.5 颗粒物采样分析仪器中的应用与优势
+1/1
13楼2021-12-20 11:26:14
简单回复
nono200910楼
2021-12-17 22:17
回复
athena615(金币+1): 谢谢参与
。 发自小木虫Android客户端
tzynew4楼
2021-12-17 16:21
回复
athena615(金币+1): 谢谢参与
i 发自小木虫Android客户端
2021-12-17 16:17
回复
athena615(金币+1): 谢谢参与
顶 发自小木虫IOS客户端
bjdxyxy2楼
2021-12-17 16:16
回复
athena615(金币+1): 谢谢参与
。 发自小木虫Android客户端
6号枫木塔5楼
2021-12-17 16:21
回复
