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2025
Abdalla, A., Abe, M., Abend, S., Abidi, M., Aidelsburger, M., Alibabaei, A., Allard, B., Antoniadis, J., Arduini, G., Augst, N., Balamatsias, P., Balaž, A., Banks, H., Barcklay, R. L., Barone, M., Barsanti, M., Bason, M. G., Bassi, A., Bayle, J. B., ... Zupanič, E. (2025). Terrestrial Very-Long-Baseline Atom Interferometry: summary of the second workshop. EPJ Quantum Technology, 12(1), Artikel 42. https://doi.org/10.1140/epjqt/s40507-025-00344-3
HosseiniArani, A., Schilling, M., Tennstedt, B., Kupriyanov, A., Beaufils, Q., Knabe, A., Sreekantaiah, A. C., dos Santos, F. P., Schön, S., & Müller, J. (2025). Combined Classical and Quantum Accelerometers for Future Satellite Gravity Missions. Earth and Space Science, 12(4), Artikel e2024EA004187. https://doi.org/10.1029/2024EA004187
Leipner, A., Kupriyanov, A., Reis, A., Knabe, A., Schilling, M., Müller, V., Weigelt, M., Müller, J., & List, M. (2025). Impact of Deployable Solar Panels on Gravity Field Recovery in GRACE-like Satellites: a Closed-Loop Simulation Study. Journal of Geodesy, 99(7), Artikel 59. https://doi.org/10.1007/s00190-025-01983-1, https://doi.org/10.48550/ARXIV.2503.21651
Romeshkani, M., Müller, J., Ebadi, S., Knabe, A., & Schilling, M. (2025). Accelerometer data transplant for future satellite gravimetry. Earth and Space Science (ESS), 13(1), Artikel e2025EA004417. https://doi.org/10.1029/2025EA004417, https://doi.org/10.22541/essoar.174585025.56008616/v1
Romeshkani, M., Müller, J., Ebadi, S., Kupriyanov, A., Knabe, A., Fletling, N., & Schilling, M. (2025). Machine Learning Algorithms for Transplanting Accelerometer Observations in Future Satellite Gravimetry Missions. Vorabveröffentlichung online. https://doi.org/10.48550/arXiv.2508.03522
Romeshkani, M., Müller, J., Knabe, A., & Schilling, M. (2025). Quantum gravimetry for future satellite gradiometry. Advances in space research, 75(2), 1653-1664. https://doi.org/10.1016/j.asr.2024.11.072
Vincent, A., & Müller, J. (2025). Vision of a Clock-Based Network for Absolute Sea Level Monitoring. In J. T. Freymueller, & L. Sánchez (Hrsg.), Together Again for Geodesy - Proceedings of the General Assembly of the International Association of Geodesy, 2023 (S. 323-330). (International Association of Geodesy Symposia; Band 157). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/1345_2024_265
2024
Abend, S., Allard, B., Alonso, I., Antoniadis, J., Araujo, H., Arduini, G., Arnold, A. S., Asano, T., Augst, N., Badurina, L., Balaz, A., Banks, H., Barone, M., Barsanti, M., Bassi, A., Battelier, B., Baynham, C. F. A., Beaufils, Q., Belic, A., ... Zupanic, E. (2024). Terrestrial very-long-baseline atom interferometry: Workshop summary. AVS Quantum Science, 6(2), Artikel 024701. https://doi.org/10.1116/5.0185291
Biskupek, L., Singh, V. V., Müller, J., & Zhang, M. (2024). Potential of Lunar Laser Ranging for the Determination of Earth Orientation Parameters. In J. T. Freymueller, & L. Sánchez (Hrsg.), Gravity, Positioning and Reference Frames - Proceedings of the IAG Symposia - GGHS2022: Gravity, Geoid, and Height Systems 2022; IAG Commission 4: Positioning and Applications, 2022; REFAG2022: Reference Frames for Applications in Geosciences, 2022 (S. 235-242). (International Association of Geodesy Symposia; Band 156). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/1345_2024_238
HosseiniArani, A., Schilling, M., Beaufils, Q., Knabe, A., Tennstedt, B., Kupriyanov, A., Schön, S., Pereira dos Santos, F., & Müller, J. (2024). Advances in Atom Interferometry and their Impacts on the Performance of Quantum Accelerometers On-board Future Satellite Gravity Missions. Advances in space research, 74(7), 3186-3200. https://doi.org/10.1016/j.asr.2024.06.055
HosseiniArani, A., Schilling, M., Tennstedt, B., Beaufils, Q., Knabe, A., Kupriyanov, A., dos Santos, F. P., Schön, S., & Müller, J. (2024). Combined Classical and Quantum Accelerometers For the Next Generation of Satellite Gravity Missions. Vorabveröffentlichung online. https://doi.org/10.48550/arXiv.2405.11259
Klemme, A., Warneke, T., Bovensmann, H., Weigelt, M., Müller, J., Rixen, T., Notholt, J., & Lämmerzahl, C. (2024). Sediment transport in Indian rivers high enough to impact satellite gravimetry. Hydrology and Earth System Sciences, 28(7), 1527–1538. https://doi.org/10.5194/hess-2023-37, https://doi.org/10.5194/hess-2023-37-supplement
Klemme, A., Warneke, T., Bovensmann, H., Weigelt, M., Müller, J., Rixen, T., Notholt, J., & Lämmerzahl, C. (2024). Sediment transport in South Asian rivers high enough to impact satellite gravimetry. Hydrology and Earth System Sciences, 28(7), 1527–1538. https://doi.org/10.5194/hess-28-1527-2024
Kupriyanov, A., Reis, A., Knabe, A., Fletling, N., HosseiniArani, S. A., Romeshkani, M., Schilling, M., Müller, V., & Müller, J. (2024). Analysis of Novel Sensors and Satellite Formation Flights for Future Gravimetry Missions. In J. T. Freymueller, & L. Sánchez (Hrsg.), Together Again for Geodesy: Proceedings of the General Assembly of the International Association of Geodesy, Berlin, Germany, 11–20 July, 2023 (S. 187-197). (International Association of Geodesy Symposia). https://doi.org/10.1007/1345_2024_279
Kupriyanov, A., Reis, A., Schilling, M., Müller, V., & Müller, J. (2024). Benefit of enhanced electrostatic and optical accelerometry for future gravimetry missions. Advances in space research, 73(6), 3345-3362. https://doi.org/10.48550/arXiv.2310.14875, https://doi.org/10.1016/j.asr.2023.12.067
Lachmann, K. E., & Müller, J. (2024). Determination of physical heights via time transfer . https://doi.org/10.5194/egusphere-egu24-17616
Mu, Q., Müller, J., Wu, H., Knabe, A., & Zhong, M. (2024). Satellite gradiometry based on a new generation of accelerometers and its potential contribution to Earth gravity field determination. Advances in space research, 73(6), 3321-3344. https://doi.org/10.1016/j.asr.2023.08.023
Schilling, M., Forsberg, R., Gaaloul, N., Gruber, T., Lévèque, T., Migliaccio, F., Müller, J., Santos, F. P. D., & Zahzam, N. (2024). CARIOQA-PMP quantum accelerometer simulation. Beitrag in EGU General Assembly 2024, Wien, Österreich. https://doi.org/10.5194/egusphere-egu24-14996
Shabanloui, A., Wu, H., & Müller, J. (2024). Estimation of Temporal Variations in the Earth’s Gravity Field Using Novel Optical Clocks Onboard of Low Earth Orbiters. In J. T. Freymueller, & L. Sánchez (Hrsg.), Gravity, Positioning and Reference Frames - Proceedings of the IAG Symposia - GGHS2022: Gravity, Geoid, and Height Systems 2022; IAG Commission 4: Positioning and Applications, 2022; REFAG2022: Reference Frames for Applications in Geosciences, 2022 (S. 53-62). (International Association of Geodesy Symposia; Band 156). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/1345_2023_220
Vincent, A., & Müller, J. (2024). Detection of time variable gravity signals using terrestrial clock networks. Advances in Space Research, 73(6), 3312-3320. https://doi.org/10.1016/j.asr.2023.07.058
