| Global thermal inertia and surface properties of Mars from the MGS mapping mission NE Putzig, MT Mellon, KA Kretke, RE Arvidson Icarus 173 (2), 325-341, 2005 | 393 | 2005 |
| Global thermal inertia and surface properties of Mars from the MGS mapping mission NE Putzig, MT Mellon, KA Kretke, RE Arvidson Icarus 173 (2), 325-341, 2005 | 393 | 2005 |
| Grain retention and formation of planetesimals near the snow line in MRI-driven turbulent protoplanetary disks KA Kretke, DNC Lin The Astrophysical Journal 664 (1), L55, 2007 | 264 | 2007 |
| Growing the gas-giant planets by the gradual accumulation of pebbles HF Levison, KA Kretke, MJ Duncan Nature 524 (7565), 322-324, 2015 | 242 | 2015 |
| Growing the terrestrial planets from the gradual accumulation of submeter-sized objects HF Levison, KA Kretke, KJ Walsh, WF Bottke Proceedings of the National Academy of Sciences 112 (46), 14180-14185, 2015 | 165 | 2015 |
| Assembling the building blocks of giant planets around intermediate-mass stars KA Kretke, DNC Lin, P Garaud, NJ Turner The Astrophysical Journal 690 (1), 407, 2008 | 102 | 2008 |
| The mass and size distribution of planetesimals formed by the streaming instability. II. The effect of the radial gas pressure gradient CP Abod, JB Simon, R Li, PJ Armitage, AN Youdin, KA Kretke The Astrophysical Journal 883 (2), 192, 2019 | 98 | 2019 |
| The importance of disk structure in stalling type I migration KA Kretke, DNC Lin The Astrophysical Journal 755 (1), 74, 2012 | 96 | 2012 |
| Protoplanetary disk rings as sites for planetesimal formation D Carrera, JB Simon, R Li, KA Kretke, H Klahr The Astronomical Journal 161 (2), 96, 2021 | 71 | 2021 |
| Challenges in forming the solar system's giant planet cores via pebble accretion KA Kretke, HF Levison The Astronomical Journal 148 (6), 109, 2014 | 64 | 2014 |
| Stellar irradiated discs and implications on migration of embedded planets-III. Viscosity transitions B Bitsch, A Morbidelli, E Lega, K Kretke, A Crida Astronomy & Astrophysics 570, A75, 2014 | 61 | 2014 |
| Planet formation theory in the era of ALMA and Kepler: from pebbles to exoplanets J Drazkowska, B Bitsch, M Lambrechts, GD Mulders, D Harsono, A Vazan, ... arXiv preprint arXiv:2203.09759, 2022 | 50 | 2022 |
| Energy dissipation in large collisions—no change in planet formation outcomes R Deienno, KJ Walsh, KA Kretke, HF Levison The Astrophysical Journal 876 (2), 103, 2019 | 30 | 2019 |
| Structure of magnetorotational instability active protoplanetary disks KA Kretke, DNC Lin The Astrophysical Journal 721 (2), 1585, 2010 | 26 | 2010 |
| Constraining the parameter space for the solar nebula-The effect of disk properties on planetesimal formation CT Lenz, H Klahr, T Birnstiel, K Kretke, S Stammler Astronomy & Astrophysics 640, A61, 2020 | 25 | 2020 |
| A global map of thermal inertia from Mars Global Surveyor mapping-mission MT Mellon, KA Kretke, MD Smith, SM Pelkey Lunar Planet. Sci., XXXIII, 2002 | 25 | 2002 |
| Linking planetary embryo formation to planetesimal formation-I. The effect of the planetesimal surface density in the terrestrial planet zone O Voelkel, R Deienno, K Kretke, H Klahr Astronomy & Astrophysics 645, A131, 2021 | 22 | 2021 |
| Linking planetary embryo formation to planetesimal formation-II. The effect of pebble accretion in the terrestrial planet zone O Voelkel, R Deienno, K Kretke, H Klahr Astronomy & Astrophysics 645, A132, 2021 | 21 | 2021 |
| A method to constrain the size of the protosolar nebula KA Kretke, HF Levison, MW Buie, A Morbidelli The Astronomical Journal 143 (4), 91, 2012 | 19 | 2012 |
| Transforming dust to planets F Nimmo, K Kretke, S Ida, S Matsumura, T Kleine Space Science Reviews 214, 1-29, 2018 | 17 | 2018 |
