planetary science, the Moon, late bombardment, impact gardening
521
Scholar Citations
10
Scholar h-index
10
Scholar i10-index
RECENT SCHOLAR PUBLICATIONS
The timeline of early lunar bombardment constrained by the evolving distributions of differently aged melt T Liu, G Michael, K Wünnemann The Planetary Science Journal 4 (7), 133 , 2023 2023 Citations: 8
Origin of heterogeneities underneath small craters-modeling of impact-induced compaction of regolith Y Wang, K Wünnemann, Z Xiao, R Luther, T Liu, R Röhlen 11th European Lunar Symposium , 2023 2023
Replication Data for: Lunar megaregolith mixing by impacts: Spatial diffusion of basin melt and its implications for sample interpretation. T Liu, G Michael, K Wünnemann, H Becker, J Oberst TRR170-DB , 2023 2023
Replication Data for: Predicted Sources of Samples Returned from Chang’e-5 Landing Region T Liu, G Michael, M Zhu, K Wünnemann TRR170-DB , 2023 2023
Replication Data for: 3D-simulation of Lunar Megaregolith Evolution: Quantitative Constraints on Spatial Variation and Size of Fragment T Liu, K Wünnemann, G Michael TRR170-DB , 2023 2023
Replication Data for: Melt production and ejection from lunar intermediate sized impact craters: Where is the molten material deposited? T Liu, R Luther, L Manske, K Wünnemann TRR170-DB , 2023 2023
Replication Data for: Formation of Small Craters in the Lunar Regolith: How Do They Influence the Preservation of Ancient Melt at the Surface? T Liu, G Michael, T Haber, K Wünnemann TRR170-DB , 2023 2023
Exploration of Mons Malapert: Topographic, Geologic and Trafficability Considerations AT Basilevsky, JW Head, SS Krasilnikov, MA Ivanov, MI Malenkov, ... Artemis III Candidate Landing Regions Workshop 2989, 2011 , 2023 2023
Replication Data for: The Timeline of Early Lunar Bombardment Constrained by the Evolving Compositions of Differently-Aged Melt T Liu, G Michael, K Wünnemann TRR170-DB , 2023 2023
The synergetic effect of the potential Procellarum and the South-Pole Aitken impact on the formation of the lunar nearside-farside asymmetries T Liu, L Allibert, R Luther, K Wünnemann, MH Zhu, T Davison 54th Lunar and Planetary Science Conference 2806, 1251 , 2023 2023 Citations: 1
The Timeline of Early Lunar Bombardment Constrained by the Evolving Compositions of Differently-Aged Melt T Liu, G Michael, K Wünnemann 54th Lunar and Planetary Science Conference 2806, 1249 , 2023 2023
3D-simulation of lunar megaregolith evolution: Quantitative constraints on spatial variation and size of fragment T Liu, K Wünnemann, G Michael Earth and Planetary Science Letters 597, 117817 , 2022 2022 Citations: 9
A 4.15 Ga age of Serenitatis or Crisium implied by the 207 Pb/ 206 Pb systematics of Apollo sample 77017. T Haber, W Iqbal, T Liu, EE Scherer, CH van der Bogert, H Hiesinger Meteoritics & Planetary Science 57 , 2022 2022
3D-Simulation of Cumulative Impact Fragmentation: How Did the Lunar Megaregolith Evolve? T Liu, K Wünnemann, G Michael Meteoritics & Planetary Science 57 , 2022 2022
Melt production and ejection from lunar intermediate‐sized impact craters: Where is the molten material deposited? T Liu, R Luther, L Manske, K Wünnemann Journal of Geophysical Research: Planets 127 (8), e2022JE007264 , 2022 2022 Citations: 8
What is the Source of Apollo 17 Sample 77017? W Iqbal, T Liu, T Haber, CH van der Bogert, EE Scherer, H Hiesinger 53rd Lunar and Planetary Science Conference 2678, 1045 , 2022 2022
Effect of topographic degradation on small lunar craters: Implications for regolith thickness estimation X Yang, W Fa, J Du, M Xie, T Liu Geophysical Research Letters 48 (22), e2021GL095537 , 2021 2021 Citations: 22
Lunar megaregolith mixing by impacts: the spatial diffusion of surface material and its implications for sample interpretation T Liu Technische Universität Berlin , 2021 2021
Formation of lunar megaregolith: the preservation of ancient impact boulders T Liu, K Wünnemann EPSC2021 , 2021 2021
formation of small craters in the lunar regolith: How do they influence the preservation of ancient melt at the surface? T Liu, G Michael, T Haber, K Wünnemann Journal of Geophysical Research: Planets 126 (5), e2020JE006708 , 2021 2021 Citations: 3
MOST CITED SCHOLAR PUBLICATIONS
Regolith stratigraphy at the Chang'E‐3 landing site as seen by lunar penetrating radar W Fa, MH Zhu, T Liu, JB Plescia Geophysical Research Letters 42 (23), 10,179-10,187 , 2015 2015 Citations: 170
Regolith thickness over Sinus Iridum: Results from morphology and size‐frequency distribution of small impact craters W Fa, T Liu, MH Zhu, J Haruyama Journal of Geophysical Research: Planets 119 (8), 1914-1935 , 2014 2014 Citations: 65
Potential lunar base on Mons Malapert: Topographic, geologic and trafficability considerations AT Basilevsky, SS Krasilnikov, MA Ivanov, MI Malenkov, GG Michael, ... Solar System Research 53 (5), 383-398 , 2019 2019 Citations: 53
Ballistic sedimentation of impact crater ejecta: Implications for the provenance of lunar samples and the resurfacing effect of ejecta on the lunar surface M Xie, T Liu, A Xu Journal of Geophysical Research: Planets 125 (5), e2019JE006113 , 2020 2020 Citations: 51
Predicted sources of samples returned from Chang’e− 5 landing region T Liu, G Michael, MH Zhu, K Wünnemann Geophysical Research Letters 48 (8), e2021GL092434 , 2021 2021 Citations: 33
Morphology of asteroid (4179) Toutatis as imaged by Chang'E‐2 spacecraft MH Zhu, W Fa, WH Ip, J Huang, T Liu, L Meng, J Yan, A Xu, Z Tang, ... Geophysical Research Letters 41 (2), 328-333 , 2014 2014 Citations: 30
Lunar megaregolith mixing by impacts: Spatial diffusion of basin melt and its implications for sample interpretation T Liu, G Michael, K Wuennemann, H Becker, J Oberst Icarus 339, 113609 , 2020 2020 Citations: 29
Effect of topographic degradation on small lunar craters: Implications for regolith thickness estimation X Yang, W Fa, J Du, M Xie, T Liu Geophysical Research Letters 48 (22), e2021GL095537 , 2021 2021 Citations: 22
Regolith mixing by impacts: Lateral diffusion of basin melt T Liu, G Michael, J Engelmann, K Wünnemann, J Oberst Icarus 321, 691-704 , 2019 2019 Citations: 18
Lunar megaregolith mixing by impacts: Evaluation of the non-mare component of mare soils T Liu, G Michael, W Zuschneid, K Wünnemann, J Oberst Icarus 358, 114206 , 2021 2021 Citations: 17
3D-simulation of lunar megaregolith evolution: Quantitative constraints on spatial variation and size of fragment T Liu, K Wünnemann, G Michael Earth and Planetary Science Letters 597, 117817 , 2022 2022 Citations: 9
The timeline of early lunar bombardment constrained by the evolving distributions of differently aged melt T Liu, G Michael, K Wünnemann The Planetary Science Journal 4 (7), 133 , 2023 2023 Citations: 8
Melt production and ejection from lunar intermediate‐sized impact craters: Where is the molten material deposited? T Liu, R Luther, L Manske, K Wünnemann Journal of Geophysical Research: Planets 127 (8), e2022JE007264 , 2022 2022 Citations: 8
formation of small craters in the lunar regolith: How do they influence the preservation of ancient melt at the surface? T Liu, G Michael, T Haber, K Wünnemann Journal of Geophysical Research: Planets 126 (5), e2020JE006708 , 2021 2021 Citations: 3
Regolith thickness at the Chang’E-3 landing site from the Lunar Penetrating Radar and impact craters W Fa, M Zhu, T Liu European Planetary Science Congress 10 , 2015 2015 Citations: 2
Regolith Thickness Estimation over Sinus Iridum Using Morphology and Size-Frequency Distribution of Small Craters from LROC Images T Liu, W Fa, M Zhu, J Haruyama 45th Annual Lunar and Planetary Science Conference, 1347 , 2014 2014 Citations: 2
The synergetic effect of the potential Procellarum and the South-Pole Aitken impact on the formation of the lunar nearside-farside asymmetries T Liu, L Allibert, R Luther, K Wünnemann, MH Zhu, T Davison 54th Lunar and Planetary Science Conference 2806, 1251 , 2023 2023 Citations: 1
Origin of heterogeneities underneath small craters-modeling of impact-induced compaction of regolith Y Wang, K Wünnemann, Z Xiao, R Luther, T Liu, R Röhlen 11th European Lunar Symposium , 2023 2023
Replication Data for: Lunar megaregolith mixing by impacts: Spatial diffusion of basin melt and its implications for sample interpretation. T Liu, G Michael, K Wünnemann, H Becker, J Oberst TRR170-DB , 2023 2023
Replication Data for: Predicted Sources of Samples Returned from Chang’e-5 Landing Region T Liu, G Michael, M Zhu, K Wünnemann TRR170-DB , 2023 2023
