Greifswald 2024 – scientific programme
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EP: Fachverband Extraterrestrische Physik
EP 6: Postersession
EP 6.8: Poster
Wednesday, February 28, 2024, 16:30–18:30, ELP 6: Foyer
Time-Domain Spectroscopy for Space Exploration — •Yookyung Ha1,2, Jonas Woeste2,1, Dominic Azih2,1, Oliver Gueckstock3, Georgios Kourkafas4, Jovana Petrovic6, Mihailo Rabasovic5, Aleksandar Krmpot5, Tom S. Seifert3,7, Andrea Denker4, Tobias Kampfrath3,7, Nikola Stojanovic1, and Michael Gensch1,2 — 1DLR Institute of Optical Sensor Systems, Berlin, Germany — 2Technical University of Berlin, Berlin, Germany — 3Free University of Berlin, Berlin, Germany — 4Helmholtz-Zentrum Berlin, Berlin, Germany — 5Institute of Physics Belgrade, University of Belgrade, Belgrade, Serbia — 6Vinca Institute of Nuclear Sciences, National Institute of the Republic of Serbia, University of Belgrade, Belgrade, Serbia — 7TeraSpinTec GmbH, Berlin Germany
Recently, space-qualified femtosecond laser systems have become available [1,2]. Time-domain spectroscopy techniques, which revolutionised spectroscopy in laboratory environments, are now hence becoming true alternatives as modern spectroscopic sensors for space exploration. Bulky opto-mechanical components can thereby be replaced with compact electro-optic photonic components. Here, we show our progress enroute to time-domain spectroscopy instrumentation that is able to detect Raman- or infrared-active resonances in matter with a bandwidth of 30THz (1000 cm-1) and a resolution of 100GHz (3.3 cm-1). [1]. J. Lee, K. Lee, Y. Jang, et al. Scientific Reports, vol. 4, pp. 5134, (2014). [2]. M. Lezius, T. Wilken, C. Deutsch, et al., Optica 3, 1381 (2016).
Keywords: pump-probe; spectroscopy; ultrafast lasers; minerals