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| Course title | City | Start date | Credits |
|---|---|---|---|
| PhD Course - Optical terahertz technology | Kgs. Lyngby | - | 5 ECTS |
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DTU Department of Photonics Engineering
General course objectives:The student will get acquainted with modern technology for generation and detection of coherent signals in the terahertz frequency range and gain insight into selected modern scientific and technical applications of terahertz rad |
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| PhD Course - Quantum Information Journal Club | Kgs. Lyngby | - | 5 ECTS |
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DTU Department of Photonics Engineering
General course objectives:To provide the participants with a fundamental knowledge of basic principles in quantum information technology and to relate this to new approaches in the field. The main focus in this journal club is on implementation in semicon |
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| PhD Course - Research topics in acoustic technology | Kgs. Lyngby | - | 5 ECTS |
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DTU Department of Photonics Engineering
General course objectives:To develop the student’s self-learning ability and to increase the knowledge of recent literature within the student’s own research area and related topics. To improve the student’s scientific communication skillsand promote scie |
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| PhD Course - Topics in advanced control | Kgs. Lyngby | - | 5 ECTS |
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DTU Department of Photonics Engineering
General course objectives:- to teach the basic in advanced control.- to show applications of advanced control.- to be able to use advanced control.Learning objectives:A student who has met the objectives of the course will be able to:read and understand l |
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| PhD Course in nonlinear Optics | Kgs. Lyngby | - | 10 ECTS |
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DTU Department of Photonics Engineering
General course objectives:At the end of the course the participants should be able to perform simple evaluations of nonlinear phenomena in optics. Examples will be directed toward applications within optical communications, sensors and lasers. In addition |
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