Planetesimals in rarefied gas: wind erosion in slip flow

被引:15
作者
Demirci, Tunahan [1 ]
Schneider, Niclas [1 ]
Steinpilz, Tobias [1 ]
Bogdan, Tabea [1 ]
Teiser, Jens [1 ]
Wurm, Gerhard [1 ]
机构
[1] Univ Duisburg Essen, Fac Phys, Lotharstr 1, D-47057 Duisburg, Germany
来源
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY | 2020年 / 493卷 / 04期
关键词
planets and satellites: dynamical evolution and stability; planets and satellites: formation; planets and satellites: physical evolution; planet-disc interaction; protoplanetary discs; BODIES; SOLAR; TRANSPORT; PLATFORM; CONTACT; TUNNEL; DUNES; MODEL; MARS;
D O I
10.1093/mnras/staa607
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
A planetesimal moves through the gas of its protoplanetary disc where it experiences a head wind. Though the ambient pressure is low, this wind can erode and ultimately destroy the planetesimal if the flow is strong enough. For the first time, we observe wind erosion in ground-based and microgravity experiments at pressures relevant in protoplanetary discs, i.e. down to 10(-1) mbar. We find that the required shear stress for erosion depends on the Knudsen number related to the grains at the surface. The critical shear stress to initiate erosion increases as particles become comparable to or larger than the mean free path of the gas molecules. This makes pebble pile planetesimals more stable at lower pressure. However, it does not save them as the experiments also show that the critical shear stress to initiate erosion is very low for sub-millimetre-sized grains.
引用
收藏
页码:5456 / 5463
页数:8
相关论文
共 50 条
[1]   The Bagnold Dunes in Southern Summer: Active Sediment Transport on Mars Observed by the Curiosity Rover [J].
Baker, Mariah M. ;
Lapotre, Mathieu G. A. ;
Minitti, Michelle E. ;
Newman, Claire E. ;
Sullivan, Robert ;
Weitz, Catherine M. ;
Rubin, David M. ;
Vasavada, Ashwin R. ;
Bridges, Nathan T. ;
Lewis, Kevin W. .
GEOPHYSICAL RESEARCH LETTERS, 2018, 45 (17) :8853-8863
[2]   The growth mechanisms of macroscopic bodies in protoplanetary disks [J].
Blum, Juergen ;
Wurm, Gerhard .
ANNUAL REVIEW OF ASTRONOMY AND ASTROPHYSICS, 2008, 46 :21-56
[3]   Evidence for the formation of comet 67P/Churyumov-Gerasimenko through gravitational collapse of a bound clump of pebbles [J].
Blum, Juergen ;
Gundlach, Bastian ;
Krause, Maya ;
Fulle, Marco ;
Johansen, Anders ;
Agarwal, Jessica ;
von Borstel, Ingo ;
Shi, Xian ;
Hu, Xuanyu ;
Bentley, Mark S. ;
Capaccioni, Fabrizio ;
Colangeli, Luigi ;
Della Corte, Vincenzo ;
Fougere, Nicolas ;
Green, Simon F. ;
Ivanovski, Stavro ;
Mannel, Thurid ;
Merouane, Sihane ;
Migliorini, Alessandra ;
Rotundi, Alessandra ;
Schmied, Roland ;
Snodgrass, Colin .
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 2017, 469 :S755-S773
[4]   How cores grow by pebble accretion I. Direct core growth [J].
Brouwers, M. G. ;
Vazan, A. ;
Ormel, C. W. .
ASTRONOMY & ASTROPHYSICS, 2018, 611
[5]   Forming Planetesimals in Solar and Extrasolar Nebulae [J].
Chiang, E. ;
Youdin, A. N. .
ANNUAL REVIEW OF EARTH AND PLANETARY SCIENCES, VOL 38, 2010, 38 :493-522
[6]   DEFINITIVE EQUATIONS FOR THE FLUID RESISTANCE OF SPHERES [J].
DAVIES, CN .
PROCEEDINGS OF THE PHYSICAL SOCIETY OF LONDON, 1945, 57 (322) :259-270
[7]  
DEMIRCI T, 2017, APJ, V846, DOI DOI 10.3847/1538-4357/AA816C
[8]   Are Pebble Pile Planetesimals Doomed? [J].
Demirci, Tunahan ;
Kruss, Maximilian ;
Teiser, Jens ;
Bogdan, Tabea ;
Jungmann, Felix ;
Schneider, Niclas ;
Wurm, Gerhard .
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY, 2019, 484 (02) :2779-2785
[9]   GRAVOTURBULENT PLANETESIMAL FORMATION: THE POSITIVE EFFECT OF LONG-LIVED ZONAL FLOWS [J].
Dittrich, K. ;
Klahr, H. ;
Johansen, A. .
ASTROPHYSICAL JOURNAL, 2013, 763 (02)
[10]  
Goicoechea J.R., 2015, ASTROPHYS J, V812, P75, DOI [10.1088/0004-637X/812/1/75, DOI 10.1088/0004-637X/812/1/75]
12345