Proceedings und Buchbeiträge
- Cosentino, R., Focardi, M., Galli, E., Steller, M., Blanco, C., Pezzuto, S., Giusi, G., Giorgio, A., Biondi, D., Jeszenszky, H., Ottacher, H., Laky, G., Serafini, L., Loidolt, D., Ottensamer, R., Russi, A., Nuñez, M., Luntzer, A., Coyle, L. (Ed.), ... Perrin, M. (Ed.) (2022). PLATO: The status of the instrument control unit following its critical design review. In Proc. SPIE 12180, Space Telescopes and Instrumentation 2022: Optical, Infrared, and Millimeter Wave (pp. 121801B). SPIE. https://doi.org/10.1117/12.2628548
- Dilssner, F., Strangfeld, A., Gonzalez, F., & Steindorfer, M. (2022). Galileo mission recent results, ongoing support and future launches. In 22nd International Workshop on Laser Ranging https://ilrs.gsfc.nasa.gov/lw22/abstracts/S05/S05-01_Dilssner.pdf
- Liu, Y., Hatab, Z., Leitgeb, E., Wang, P., Leitgeb, E. (Ed.), & Tesch, F. (Ed.) (2022). Experimental coupling loss analysis of free space optical link under different weather conditions. In Proceedings, 4th International Conference on Broadband Communications for Next Generation Networks and Multimedia Applications (CoBCom) (pp. 4 pp.). IEEE. https://doi.org/10.1109/COBCOM55489.2022.9880792
- Scherzer, M., Auer, M., Valavanoglou, A., & Magnes, W. (2022). Implementation of a fully differential low noise current source for fluxgate sensors. In 2022 IEEE 13th Latin America Symposium on Circuits and System (LASCAS) (pp. 4 pp.). IEEE. https://doi.org/10.1109/LASCAS53948.2022.9789061
- Scherzer, M., & Auer, M. (2022). A digitally-controlled fully differential low noise current source. In 2022 IEEE International Symposium on Circuits and Systems (ISCAS) (pp. 4 pp.). IEEE. https://doi.org/10.1109/ISCAS48785.2022.9937577
- Shi, J., Wang, Z., Cheng, Z., Qureshi, M., & Torkar, K. (2022). A theoretical model for nonlinear waves observed in space plasmas. In Proceedings 2022 Photonics & Electromagnetics Research Symposium (PIERS) (pp. 718-724). IEEE. https://doi.org/10.1109/PIERS55526.2022.9792967
- Steindorfer, M., Koidl, F., Schneider, S., Wang, P., Jonglez, C., Barschke, M., Soares, T., Gutierrez, E., Cipriano, A., & Federation, I. A. (Ed.) (2022). Reflector-based attitude detection system. In 73rd International Astronautical Congress, Paris, 18-22 September 2022 (pp. 6 p.). International Astronautical Federation.
- Steindorfer, M., Koidl, F., Wang, P., Schneider, S., Jonglez, C., Barschke, M., Soares, T., Padilla, E., & Cipriano, A. (2022). A tool for simulating SLR residuals - Placement of backup retroreflectors for future satellite missions. In 22nd International Workshop on Laser Ranging https://ilrs.cddis.eosdis.nasa.gov/lw22/abstracts/S04/S04-01_Steindorfer.pdf
- Tirado, D. A., Balufo, M., Carro, J., Morand, V., Steindorfer, M., Kirchner, G., & Federation, I. A. (Ed.) (2022). An advanced tool to determine the apparent rotation period of a space object from a fusion of measurements. In 73rd International Astronautical Congress, Paris, 18-22 September 2022 (pp. 10 p.). International Astronautical Federation.
- Trummer, N. M., Steindorfer, M., Koidl, F., Wang, P., Kirchner, K. G., Kloth, A., Munder, J., Steinborn, J., Flohrer, T., di Mira, A., & Heese, C. (2022). Modular setup of SLR laser and detection packages. In 22nd International Workshop on Laser Ranging https://ilrs.gsfc.nasa.gov/lw22/posters/papers/S08-P07_Nadine_Trummer_Paper.pdf
- Wang, P., Steindorfer, M., Koidl, F., & Kirchner, K. G. (2022). Day- and night-time SLR at MHz repetition rate in Graz. In 22nd International Workshop on Laser Ranging https://ilrs.gsfc.nasa.gov/lw22/papers/S08/S08-03_Peiyuan_Wang_Paper.pdf