ECTS points: 5
Institution: DTU
Schedule: January or June
Type of assessment: pass / not pass, internal examiner
Responsible: Peter Uhd Jepsen, build. 345v, room 079, (+45) 4525 5711
Content:
The students will participate in one of the exciting experimental, theoretical and numerical simulation projects listed below, supervised by the specialists at DTU Fotonik and Department of Physics. The students will work in small groups (2-3 persons), and be able to go into theoretical depth and beyond standard introductory laboratory exercises with topics in the following exciting fields:
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Characterization of microstructured optical fibers
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Experiments with fibre-based biosensors
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Gratings in an optical fiber for use as temperature and strain sensors
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Characterization of ultrafast laser sources and ultrafast spectroscopy
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Simulation of amplification and compression of ultrashort laser pulses
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Nonlinearity in high power large mode area Photonic Crystal Fibre lasers
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Advanced characterization of fiber laser pulses
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Food analysis with broadband THz spectroscopy
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Time-resolved spectroscopy on quantum dots in nanophotonic structures
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Fabrication and optical characterization of planar photonic crystal structures and optical nano-cavities
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Development of electromagnetic field simulation tools
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Modelling and optical characterization of a new class of components for integrated optics based on plasmonic waveguides
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Fabrication of nanostructured metal-dielectric surfaces for field enhancement studies
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Laser physics and nonlinear frequency conversion
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Experiments with optical effects in fibre-based communication systems
Link to course