This picture showsKarim Douch

Dr.

Karim Douch

Scientific Employee

Contact

+49 711 685-83474

Geschwister-Scholl-Str. 24/D
70174 Stuttgart
Germany
Room: 5.306

  1. 2020

    1. Cambiotti, G., Douch, K., Cesare, S., Haagmans, R., Sneeuw, N., Anselmi, A., Marotta, A. M., & Sabadini, R. (2020). On Earthquake Detectability by the Next-Generation Gravity Mission. Surveys in Geophysics, 41(5), 1049–1074. https://doi.org/10.1007/s10712-020-09603-7
  2. 2019

    1. Trimeche, A., Battelier, B., Becker, D., Bertoldi, A., Bouyer, P., Braxmaier, C., Charron, E., Corgier, R., Cornelius, M., Douch, K., & others. (2019). Concept study and preliminary design of a cold atom interferometer for space gravity gradiometry. ArXiv Preprint ArXiv:1903.09828.
    2. Peyman, S., Douch, K., & Sneeuw, N. (2019). Investigating Granger causality between sea surface temperature and terrestrial water storage change in Europe.
    3. Douch, K, Cambiotti, G., Sneeuw, N., Anselmi, A., Marotta, A., & Sabadini, R. (2019). On the Possibility to monitor the Co- and Post-seismic Signal with the Next Generation Gravity Mission. https://www.gis.uni-stuttgart.de/forschung/doc/Douch_2019.pdf
    4. Feng, W., Wang, C., Zhong, M., Shum, C., Hsu, H., Sneeuw, N., Douch, K., Chen, Q., & Yeh, H. (2019). Potential hydrological and seismological applications of the next-generation gravity field missions based on multi-pair constellations and joint sino-European numerical simulations.
    5. Knabe, A., Douch, K., & Müller, J. (2019). The potential of satellite gradiometry to recover the time-variable gravity field. https://www.gis.uni-stuttgart.de/forschung/doc/Knabe_2019.pdf
  3. 2018

    1. Douch, Karim, Knabe, A., Wu, H., Mueller, J., & Heinzel, G. (2018). What is Required to Recover the Time-variable Gravitational Field Using Satellite Gradiometry? https://www.gis.uni-stuttgart.de/forschung/doc/Douch_2018.pdf
To the top of the page