Projects per year
My research comprises application of geophysical techniques to solve planetary science problems. Currently my research focuses on two areas:
1) Atmospheric radiative transfer of planetary atmospheres: I use infra-red remote sensing combined with radiative transfer analyses to study the atmospheres of Titan, Saturn, Jupiter, Uranus, Neptune, and Mars using both space-based and ground-based instruments such as Cassini, ExoMars Trace Gas Orbiter, the Atacama Large Millimeter/sub-millimeter Array, and Herschel. In particular I use unstable species to provide new insights into large-scale atmospheric dynamics.
2) Planetary seismology. I apply seismic techniques developed for Earth to planetary interiors to aid in-situ geophysical missions to the planets including NASA's InSight mission to Mars. In particular impact induced seismicity and crustal properties using broadband and short period seismometers.
1/11/15 → 30/06/18
1/07/13 → 1/07/16
1/04/18 → 31/03/21
Predicted detection rates of regional-scale meteorite impacts on Mars with the InSight short-period seismometerTeanby, N. A., Aug 2015, In : Icarus. 256, p. 49-62 14 p.
Research output: Contribution to journal › Article (Academic Journal)Open AccessFile23 Citations (Scopus)422 Downloads (Pure)
Teanby, N. A., Coustenis, A., Jaumann, R., Raulin, F., Schmidt, J., Carrasco, N., Coates, A. J., Cordier, D., De Kok, R., Geppert, W. D., Lebreton, J. P., Lefevre, A., Livengood, T. A., Mandt, K. E., Mitri, G., Nimmo, F., Nixon, C. A., Norman, L., Pappalardo, R. T. & 11 others, , 1 Dec 2014, In : Planetary and Space Science. 104, Part A, p. 59-77 19 p.
Research output: Contribution to journal › Article (Academic Journal)Open AccessFile7 Citations (Scopus)417 Downloads (Pure)