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[23] Zhu
K., M. Schiller, L. Pan, N. S. Saji, K. K. Larsen, E. Ansellem, C. Roudaug, P.
Sossi, F. Moynier, M. Bizarro, Late delivery of exotic chromium to the crust of
Mars by water-rich asteroids, Science Advances, 2022, 8, 46, 10.1126/sciadv.abp8415. [link]
[22] Carrasco S., B. Knapmeyer-Endrun, L. Margerin, C. Schmelzbach, K. Onodera, L. Pan, P. Lognonné, S. Menina, D. Giardini, E. Stutzmann, J. Clinton, S. Stähler, M. Schimmel, M. Golombek, M. Hobiger, M. Hallo, S. Kedar and W. B. Banerdt, Empirical H/V spectral ratios at the InSight landing site and implications for the Martian subsurface structure. Geophys. J. Int., 2022, 232, 2, 1293–1310. [link]
[21] Liu
Y., X. Wu, Y-Y. S. Zhao, L. Pan, C. Wang, J. Liu, Z. Zhao, X. Zhou, C. Zhang,
Y. Wu, Y. Zou. Zhurong reveals recent aqueous activities in Utopia Planitia,
Mars, Science Advance, 2022, 8, 19, 10.1126/sciadv.abn8555. [link]
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N.H., M.P. Golombek, V. Ansan, E. Marteau, N. Williams, J. A. Grant, E. Hauber,
C. Weitz, S. Wilson, S. Piqueux, N. Mueller, M. Grott, T. Spohn, L. Pan , C.
Schmelzbach, I. Daubar, J. Garvin, C. Charalambous, M. Baker, M. Banks, In Situ
and Orbital Stratigraphic Characterization of the InSight Landing Site - A Type
Example of a Regolith-Covered Lava Plain on Mars. Journal of Geophysical
Research: Planets, 2022, 127, e2022JE007232. [link]
[19] Breton,
S., C. Quantin-Nataf, L. Pan, L. Mandon, and M. Volat. 2022. Insight into
Martian Crater Degradation History Based on Crater Depth and Diameter
Statistics. Icarus 377 (May): 114898. [link]
[18] Pan,
L., C. Quantin-Nataf, L.Mandon, M. Martinot, and P. Beck. 2021. “Spectral
Endmember Variability on Hyperspectral Datasets of a Martian Meteorite —
Implications for Planetary Surfaces.” Icarus 370 (December):
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structure of the Martian crust from InSight seismic data, Science,
2021, 373, 6553, pp. 438-443, [link].
[16] Mandon
L., P. Beck, C. Quantin-Nataf, E. Dehouck, A. Pommerol, Z. Yoldi, R.
Cerubini, L.Pan, M. Martinot, J.-A. Barrat, B. Reynard, Martian
meteorites reflectance and implications forin situ studies, Icarus,
366, 114517, [link].
[15] Pan, L., J. Carter, C.
Quantin-Nataf, M. Pineau, B. Chauvire, L. Le Deit, N. Mangold, B. Rondeau, V.
Chevrier. Voluminous silica
precipitation in late martian waters, Planetary Science Journal,
(2021) 2 65, [link].
[14] Liu
Z., Y. Liu, L. Pan, J. Zhao, Inverted channel belt to the East of
Tempe Terra, Mars, and implications for persistent fluvial activity. Earth
and Planetary Science Letters, (2021)562, 116854, [link].
[13] Mandon
L., A. Parkes Bowen, C. Quantin-Nataf, J. C. Bridges, J. Carter, L. Pan,
P. Beck, E. Dehouck, M. Volat, N. Thomas, G. Cremonese, L. L. Tornabene,
Morphological and spectral diversity of the clay-bearing unit at the ExoMars
landing site Oxia Planum, Astrobiology, 2021 21:4, 464-480., [link].
[12] Quantin-Nataf
C., J. Carter, L. Mandon, P. Thollot, M. Balme, M. Volat,L. Pan, D.,
Loizeau, C. Millot, S. Breton, E. Dehouck, P. Fawdon, S. Gupta, J. Davis, P.M.,
Grindrod, A. Pacifici, B. Bultel, P. Allemand, A. Ody, L. Lozach, J. Broyer,
Oxia Planum – the landing site for the 2022 ExoMars “Rosalind Franklin” Rover
Mission: geological context and pre-landing interpretation, Astrobiology, 2021, [link].
[11] Perrin,
C., Rodriguez, S., Jacob, A., Lucas, A., Spiga, A., Murdoch, N., Lorenz, R.,
Daubar, I. J., L. Pan, Kawamura, T., Lognonne, P., Banfield, D.,
Banks, M. E., Garcia, R. F., Newman, C. E., Ohja, L., Widmer-Schnidrig, R.,
McEwen, A. S., Banerdt, W. B. (2020) Dust Devil Tracks Around the InSight
Landing Site, Mars: 8 Months of Monitoring from HiRISE Satellite Images and
Comparison with in-situ Atmospheric Data , Geophy. Res. Lett., [link].
[10] Pan, L., C. Quantin-Nataf, B.
Tauzin, C. Michaut, M. Golombek, P. Lognonné, P. Grindrod, B. Langlais, T.
Gudkova, I. Stepanova, S. Rodriguez, A. Lucas.(2020) Crust heterogeneities and
structure in the first kilometers at the dichotomy boundary in western Elysium Planitia
and Implications for InSight lander, Icarus, 338, [link].
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Giardini et al. (incl. L. Pan)
(2020) Constraints on the shallow elastic and anelastic structure of Mars from
InSight seismic data, Nature Geoscience, [link].
[8] Johnson C., A. Mittelholz et al. (incl. L. Pan).(2020) Crustal and
Time-Varying Magnetic Fields at the InSight Landing Site on Mars, Nature
Geoscience, [link].
[7] Pan, L., C. Quantin-Nataf, S.
Breton, and C. Michaut. (2019). The Impact
Origin and Evolution of Chryse Planitia on Mars Revealed by Buried
Craters. Nature Communications 10 (1): 4257, [link].
[6] Pan, L., and Ehlmann, B. L.
(2018). Aqueous processes from diverse hydrous minerals in the vicinity of
Amazonian aged Lyot crater. Journal of Geophysical Research: Planets,
123, 1618–1648, [link].
[5]Tian
W., L. Wang, L. Pan and M. Y. Gong (2018) A giant felsic
pyroclastic flow eruption in the Tarim Flood Basalt Province, Acta
Petrologica Sinica. 34 (1): 63-74.
[4] Buz,
J., B. L. Ehlmann, L. Pan, and J. P. Grotzinger (2017), Mineralogy
and stratigraphy of the Gale crater rim, wall, and floor units, J.
Geophys. Res. Planets, 122, 1090–1118, [link].
[3] Pan, L., Ehlmann, B. L.,
Carter, J., Ernst, C. M. (2017) The stratigraphy and history of
Mars' northern lowlands through mineralogy of impact craters: A
comprehensive survey. Journal of Geophysical Research: Planets ,
122(9), 1824-1854. [link].
[2] Pan, L., and B. L. Ehlmann
(2014), Phyllosilicate and hydrated silica detections in the knobby terrains of
Acidalia Planitia, northern plains, Mars, Geophys. Res. Lett., 41,
1890–1898, [link].
[1] Shangguan
S.M., T. Wei, Y.G. Xu, P. Guan, L. Pan (2012) The eruption
characteristic of the Tarim flood basalt., Acta Petrologica Sinica.28
(4): 1261-1272