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Superresolution stimulated Raman scattering imaging enabled by silicon photonicsResearch Area:
Super-resolved microscopy enabled by silicon photonics Main Researcher: Alejandro Diaz Tormo
The current project aims at developping new microscopy tools to enable label-free Raman imaging with unprecedented resolution. It is based on innovative integrated silicon photonic structures, development of stimulated Raman scattering approaches, their integration with conventional optical microscopes, and application in cell biology. There the main targeted application is the localization of DNA and biologically relevant molecules inside living cells. Other people involved: Related Research Projects
PhD thesises PublicationsInternational Journals
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Z. Liu, J. Zhang, G. Roelkens, N. Le Thomas, R. Baets,
Bottom-reflector enhanced grating couplers micro-transfer printed on silicon nitride photonic integrated circuits, accepted for publication in Journal of Lightwave Technology, (to be published)
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International Conferences
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A. Diaz Tormo , D. Khalenkow, A. G. Skirtach, N. Le Thomas,
Multi-beam microscopy free of sample-induced phase distortions, Proceedings of the 23rd Annual Symposium of the IEEE Photonics Benelux Chapter, Belgium, (2018) .
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A. Diaz Tormo , D. Khalenkow, A. G. Skirtach, N. Le Thomas,
4π Microscopy Immune to Sample-Induced Dephasing, IEEE Photonics Conference (IPC2018), United States, p.1-2 doi:10.1109/IPCon.2018.8527189 (2018).
National Conferences
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A. Diaz Tormo , D. Khalenkow, A. Skirtach, N. Le Thomas,
Raman Microscopy with Two Counter-Propagating Beams, FEA Research Symposium, Belgium, (2017) .
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