Optiktechnolgie
[1] Frank, S., Seiler, M., Bliedtner, J.: "Three-dimensional evaluation of subsurface damage in optical glasses with ground and polished surfaces using FF-OCT, In: Applied Optics, 60(8), 2021.
[2] Seiler, M., Tianis, L., Bliedtner, J., Berlinger, M., Gürtler, S. (2019): Approaches For A Destructive Measurement Method Of Subsurface Damages. Proc. of EOS (Conferences on Optical Technologies). München.
[3] Fähnle,O.,Rascher,R.,Kim, D.,Bliedtner, J., Vogt,C.(2019): Removal of local surface defects by closed-loop laser polishing using in-process surface finish metrology. 8th Applied Optics and Photonics China (AOPC 2019). Invitation Letter.
[4] Bliedtner,J.,Henkel,S.,Schwager,A.-S.,Rädlein,E.,Gerhardt,M.(2018):Ultrafine grinding and laser beam polishing processes for the manufacturing of freeform optics.EOSAM 2018. Delft (NL).
[5] Frank S, Reichenbächer M, Seiler M et al. (2023) Investigation on Subsurface Damage Patterns in Ultrashort Pulse Laser Machining of Glass using Optical Coherence Tomography. EPJ Web Conf 287:5024. https://doi.org/10.1051/epjconf/202328705024
[6] Frank S (2022) International and digital subsurface-damage-testing technologies laboratory (invited). EOSAM2022, Porto
[7] Frank S (2023) Non-destructive Subsurface Damage characterization using Optical Coherence Tomography. SpectroNet Collaboration Conference, Karlsruhe
[8] Frank S, Bliedtner J, Arnold T (2023) Optische Kohärenztomographie in der Optikfertigung: Posterbeitrag, Promovierendenkolloquium EAH Jena
Biomedizin
[1] Placzek, F., Cordero Bautista, E., Kretschmer, S., Wurster, L. M., Knorr, F., González-Cerdas, G., Erkkilä, M. T., Stein, P., Ataman, Ç., Hermann, G. G., Mogensen, K., Hasselager, T., Andersen, P. E., Zappe, H., Popp, J., Drexler, W., Leitgeb, R. A., Schie, I. W.; Morpho-molecular ex vivo detection and grading of non-muscle-invasive bladder cancer using forward imaging probe based multimodal optical coherence tomography and Raman Spectroscopy", 2020, Analyst, Volume 145, Issue 4, Pages 1445-1456, Royal Society of Chemistry
[2] Yang, W., Knorr, F., Popp, J., and Schie, I. W.; Development and evaluation of a hand-held fiber-optic Raman probe with an integrated autofocus unit, Optics Express, 28,21, 30760-30770, 2020, Optical Society of America
[3] Stiebing, C., Schie, I. W., Knorr, F., Schmitt, M., Keijzer, N., Kleemann, R., Jahn, I. J., Jahn, M., Kiliaan, A. J., Ginner, L., Lichtenegger, A., Drexler, W., Leitgeb, R. A., Popp, J.; Nonresonant Raman spectroscopy of isolated human retina samples complying with laser safety regulations for in vivo measurements, 2019/9, Neurophotonics, Volume 6, Issue 4, International Society for Optics and Photonics
[4] Bovenkamp, D., Sentosa, R., Rank, E., Erkkilä, M. T., Placzek, F., Püls, J., Drexler, W., Leitgeb, R. A., Garstka, N., Shariat, S. F., Stiebing, C., Schie, I. W., Popp, J., Andreana, M., Unterhuber, A.; Combination of high-resolution optical coherence tomography and Raman spectroscopy for improved staging and grading in bladder cancer, Applied Sciences, 8, 12,2371, 2018
[5] Egodage, K., Matthäus, C., Dochow, S., Schie, I. W., Härdtner, C., Hilgendorf, I., Popp, J.; Combination of OCT and Raman spectroscopy for improved characterization of atherosclerotic plaque depositions, 2017/9/10, Chinese Optics Letters, Vol. 15 (9), Chinese Optical Society
[6] Vasquez, D., Knorr, F., Hoffmann, F., Ernst, G., Marcu, L., Schmitt, M., Guntinas-Lichius, O., Popp, J., Schie, I. W.; "Multimodal Scanning Microscope Combining Optical Coherence Tomography, Raman Spectroscopy and Fluorescence Lifetime Microscopy for Mesoscale Label-Free Imaging of Tissue." Analytical Chemistry (2021).
[7] Schie, I.W., Stiebing, C., Popp, J.; "Looking for a perfect match: multimodal combinations of Raman spectroscopy for biomedical applications." Journal of Biomedical Optics 26.8 (2021): 080601
[8] Schie, I.W., Placzek, F., Knorr, F., Cordero, E., Wurster, L.M., Hermann, G.G., Mogensen, K., Hasselager, T., Drexler, W., Popp, J. and Leitgeb, R.A., 2021. Morpho-molecular signal correlation between optical coherence tomography and Raman spectroscopy for superior image interpretation and clinical diagnosis. Scientific Reports, 11(1), S.1-14