| Language of instruction : English |
| Exam contract: not possible |
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Sequentiality
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Mandatory sequentiality bound on the level of programme components
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Group 1 |
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For following programme components you must have acquired a credit certificate, exemption, already tolerated unsatisfactory grade or selected tolerable unsatisfactory grade.
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Electronics (1421)
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5,0 stptn |
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Following programme components must have been included in your study programme up till now.
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Electromagnetism (0174)
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6,0 stptn |
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Optics (1824)
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5,0 stptn |
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Or group 2 |
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For following programme components you must have acquired a credit certificate, exemption, already tolerated unsatisfactory grade or selected tolerable unsatisfactory grade.
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Electronics (1421)
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5,0 stptn |
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Following programme components must have been included in your study programme up till now.
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Electromagnetism (0174)
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6,0 stptn |
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Optics (3761)
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6,0 stptn |
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| Degree programme | | Study hours | Credits | P2 SBU | P2 SP | 2nd Chance Exam1 | Tolerance2 | Final grade3 | |
 | 3rd year Bachelor of Physics option Experimental Physics | Compulsory | 135 | 5,0 | 135 | 5,0 | Yes | Yes | Numerical |  |
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| | | Learning outcomes |
- EC
| EC 2: A graduate of the Bachelor of Physics programme is able to combine various basic theories of physics in studying more complex phenomena which appear for example in solid state physics, astrophysics, atomic physics, nuclear and particle physics and biophysics. | - EC
| EC 4: A graduate of the Bachelor of Physics is able to use the predominant experimental techniques proficiently and is able to reflect on these in a critical manner. | - EC
| EC 5: A graduate of the Bachelor of Physics programme gets acquainted with recent international scientific research, is able to consult international scientific sources and is able to accurately estimate their reliability. | - EC
| EC 6: A graduate of the Bachelor of Physics programme is able to apply, under supervision, the acquired knowledge and insights to perform scientific research. | - EC
| EC 8: A graduate of the Bachelor of Physics programme is able to acquire, in an independent and self-managing manner, basic knowledge in a discipline of physics which has not been dealt with within the programme. | - EC
| EC 11: A graduate of the Bachelor of Physics programme is able to function as part of a team in a constructive and responsible manner. | - EC
| EC 12: A graduate of the Bachelor of Physics is able to communicate, report and present to colleagues in a correct and appropriate manner. |
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| | EC = learning outcomes DC = partial outcomes BC = evaluation criteria |
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1. The student will get acquainted with basic properties of light, interaction of light with a matter and introduction to the quantum description of interaction with matter.
2. The student will get acquainted with the principles of coherent light generation using lasers, single photon sources and transfer of information using optical fibers.
3. The student acquires insights in the working principles of photonic devices as semiconducting opto-electronic devices including photodiodes, solar cells, LEDs, solid state lasers and photonic crystal devices.
4. The student will be acquainted with selected principles of quantum photonics as optical quantum magnetometry and quantum sensors.
5. The course comprises basics of atomistic optical color�-centre physics, nanoscale photonics, optical magnetometry and nanoscale imaging and sensing. Selected problems fro the photonics will be treated during exercises.
6. The student will participate in real life photonics projects, collaboration with external research partners and take part in visit at Interantional Universities or field realisation of optoelectronic and quantum devices.
7. The student will present the results of their real life projects in a conference type oral presentation and in a scientific article.
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Excursion/Fieldwork ✔
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Lecture ✔
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Practical ✔
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Response lecture ✔
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Selfstudy assignments and exercises ✔
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Period 2 Credits 5,00
| Evaluation method | |
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| Written evaluaton during teaching periode | 30 % |
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| Other | Practicum (20%) - Personal project (10%) |
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| Compulsory coursebooks (printed by bookshop) |
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Photonics and Quantum Technology,Textbook compulsory fo the course |
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| Compulsory course material |
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Hand outs of lectures
Photonics
Guide text for the self study sessions |
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| 3th year Bachelor of Physics option free choice addition | Optional | 135 | 5,0 | 135 | 5,0 | Yes | Yes | Numerical | |
| Exchange Programme Physics | Optional | 135 | 5,0 | 135 | 5,0 | Yes | Yes | Numerical | |
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| | | Learning outcomes |
- EC
| EC 2: A graduate of the Bachelor of Physics programme is able to combine various basic theories of physics in studying more complex phenomena which appear for example in solid state physics, astrophysics, atomic physics, nuclear and particle physics and biophysics. | - EC
| EC 4: A graduate of the Bachelor of Physics is able to use the predominant experimental techniques proficiently and is able to reflect on these in a critical manner. | - EC
| EC 5: A graduate of the Bachelor of Physics programme gets acquainted with recent international scientific research, is able to consult international scientific sources and is able to accurately estimate their reliability. | - EC
| EC 6: A graduate of the Bachelor of Physics programme is able to apply, under supervision, the acquired knowledge and insights to perform scientific research. | - EC
| EC 8: A graduate of the Bachelor of Physics programme is able to acquire, in an independent and self-managing manner, basic knowledge in a discipline of physics which has not been dealt with within the programme. | - EC
| EC 11: A graduate of the Bachelor of Physics programme is able to function as part of a team in a constructive and responsible manner. | - EC
| EC 12: A graduate of the Bachelor of Physics is able to communicate, report and present to colleagues in a correct and appropriate manner. |
|
| | EC = learning outcomes DC = partial outcomes BC = evaluation criteria |
|
|
1. The student will get acquainted with basic properties of light, interaction of light with a matter and introduction to the quantum description of interaction with matter.
2. The student will get acquainted with the principles of coherent light generation using lasers, single photon sources and transfer of information using optical fibers.
3. The student acquires insights in the working principles of photonic devices as semiconducting opto-electronic devices including photodiodes, solar cells, LEDs, solid state lasers and photonic crystal devices.
4. The student will be acquainted with selected principles of quantum photonics as optical quantum magnetometry and quantum sensors.
5. The course comprises basics of atomistic optical color�-centre physics, nanoscale photonics, optical magnetometry and nanoscale imaging and sensing. Selected problems fro the photonics will be treated during exercises.
6. The student will participate in real life photonics projects, collaboration with external research partners and take part in visit at Interantional Universities or field realisation of optoelectronic and quantum devices.
7. The student will present the results of their real life projects in a conference type oral presentation and in a scientific article.
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Excursion/Fieldwork ✔
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Lecture ✔
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Practical ✔
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Response lecture ✔
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Selfstudy assignments and exercises ✔
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Period 2 Credits 5,00
| Evaluation method | |
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| Written evaluaton during teaching periode | 30 % |
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| Other | Practicum (20%) - Personal project (10%) |
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| Compulsory coursebooks (printed by bookshop) |
| |
Photonics and Quantum Technology,Textbook compulsory fo the course |
|
|
| Compulsory course material |
| |
Hand outs of lectures
Photonics
Guide text for the self study sessions |
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1 examination regulations art.1.3, section 4. |
| 2 examination regulations art.4.7, section 2. |
3 examination regulations art.2.2, section 3.
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| Legend |
| SBU : course load | SP : ECTS | N : Dutch | E : English |
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