1932
0
  1. Home
  2. A-Z Publications
  3. Annual Review of Astronomy and Astrophysics
  4. Volume 61, 2023
  5. Article

Annual Review of Astronomy and Astrophysics

Volume 61, 2023

The Interstellar Interlopers

Abstract

Interstellar interlopers are bodies formed outside of the Solar System but observed passing through it. The first two identified interlopers, 1I/‘Oumuamua and 2I/Borisov, exhibited unexpectedly different physical properties. 1I/‘Oumuamua appeared unresolved and asteroid-like, whereas 2I/Borisov was a more comet-like source of both gas and dust. Both objects moved under the action of nongravitational acceleration. These interlopers and their divergent properties provide our only window so far onto an enormous and previously unknown galactic population. The number density of such objects is ∼0.1 AU−3 which, if uniform across the galactic disk, would imply 1025 to 1026 similar objects in the Milky Way. The interlopers likely formed in, and were ejected from, the protoplanetary disks of young stars. However, we currently possess too little data to firmly reject other explanations.

  • ▪  1I/‘Oumuamua and 2I/Borisov are both gravitationally unbound, subkilometer bodies showing nongravitational acceleration.
  • ▪  The acceleration of 1I/‘Oumuamua in the absence of measurable mass loss requires either a strained explanation in terms of recoil from sublimating supervolatiles or the action of radiation pressure on a nucleus with an ultralow mass column density, ∼1 kg m−2.
  • ▪  2I/Borisov is a strong source of CO and HO, which together account for its activity and nongravitational acceleration.
  • ▪  The interlopers are most likely planetesimals from the protoplanetary disks of other stars, ejected by gravitational scattering from planets. 1I/‘Oumuamua and 2I/Borisov have dynamical ages ∼108 and ∼109 years, respectively.
  • ▪  Forthcoming observatories should detect interstellar interlopers every year, which will provide a rapid boost to our knowledge of the population.
Keyword(s): cometsinterstellar interlopersprotoplanetary disk
Loading

Article metrics loading...

/content/journals/10.1146/annurev-astro-071221-054221
2023-08-18
2024-04-28
Loading full text...

Full text loading...

/deliver/fulltext/astro/61/1/annurev-astro-071221-054221.html?itemId=/content/journals/10.1146/annurev-astro-071221-054221&mimeType=html&fmt=ahah

Literature Cited

  1. A'Hearn MF, Feaga LM, Keller HU et al. 2012. Ap. J. 758:29
  2. Andrews SM. 2020. Annu. Rev. Astron. Astrophys. 58:483–528
  3. Andrews SM, Huang J, Pérez LM et al. 2018. Ap. J. Lett. 869:2L41
  4. Ansdell M, Williams JP, Trapman L et al. 2018. Ap. J. 859:21
  5. Aravind K, Ganesh S, Venkataramani K et al. 2021. MNRAS 502:33491–99
  6. Baggaley WJ. 2000. J. Geophys. Res 105:A510353–62
  7. Baggaley WJ, Marsh SH, Close S 2007. Workshop on Dust in Planetary Systems, ESA SP-643 H Krueger, A Graps 27–32. Noordwijk, Neth.: ESA Publ. Div. ESTEC
     [Google Scholar]
  8. Baggaley WJ, Porubcan V, eds. 1999. Meteoroids 1998: Proc. Intl. Conf. Held Tatranska Lomnica, Slovakia, August 17–21, 1998. Bratislavia, Slovak.: Astron. Inst., Slovak Acad. Sci.
  9. Baggaley WJ, Taylor AD, Steel DI. 1993. Meteoroids and their Parent Bodies, Proc. Intl. Astron. Symp. Smolenice, Slovakia, July 6–12, 1992 Bratislava: Astron. Inst., Slovak Acad. Sci.
  10. Bannister MT, Opitom C, Fitzsimmons A et al. 2020. arXiv:2001.11605
  11. Bannister MT, Schwamb ME, Fraser WC et al. 2017. Ap. J. Lett. 851:2L38
  12. Bell CPM, Mamajek EE, Naylor T. 2015. MNRAS 454:593–614
  13. Belton MJS, Hainaut OR, Meech KJ et al. 2018. Ap. J. Lett. 856:L21
  14. Benisty M, Dominik C, Follette K et al. 2022. arXiv:2203.09991
  15. Bialy S, Loeb A. 2018. Ap. J. Lett. 868:L1
  16. Binney J, Merrifield M. 1998. Galactic Astronomy Princeton, NJ: Princeton Univ. Press
  17. Biver N, Bockelée-Morvan D, Colom P et al. 2002. Earth Moon Planets 90:5–14
  18. Biver N, Bockelée-Morvan D, Hofstadter M et al. 2019. Astron. Astrophys. 630:A19
  19. Biver N, Bockelée-Morvan D, Paubert G et al. 2018. Astron. Astrophys. 619:A127
  20. Bockelée-Morvan D, Biver N. 2017. Philos. Trans. R. Soc. A 375:209720160252
  21. Bockelée-Morvan D, Biver N, Schambeau CA et al. 2022. Astron. Astrophys. 664:A95
  22. Bodewits D, Noonan JW, Feldman PD et al. 2020. Nat. Astron. 4:867–71
  23. Bolin BT, Lisse CM, Kasliwal MM et al. 2020. Astron. J. 160:26
  24. Bolin BT, Weaver HA, Fernandez YR et al. 2018. Ap. J. Lett. 852:L2
  25. Brasser R, Higuchi A, Kaib N. 2010. Astron. Astrophys. 516:A72
  26. Brasser R, Morbidelli A. 2013. Icarus 225:40–49
  27. Cabot SHC, Laughlin G. 2022. Planet. Sci. J. 3:7172
  28. Childs AC, Martin RG. 2022. Ap. J. Lett. 935:2L31
  29. Combi MR, Mäkinen T, Bertaux JL et al. 2020. Planet. Sci. J. 1:372
  30. Cook NV, Ragozzine D, Granvik M, Stephens DC. 2016. Ap. J. 825:51
  31. Cooper JF, Christian ER, Richardson JD, Wang C. 2003. Earth Moon Planets 92:261–77
  32. Cordiner MA, Milam SN, Biver N et al. 2020. Nat. Astron. 4:861–66
  33. Cremonese G, Fulle M, Cambianica P et al. 2020. Ap. J. Lett. 893:L12
  34. Ćuk M. 2018. Ap. J. Lett. 852:L15
  35. Davidsson BJR. 2021. MNRAS 505:45654–85
  36. Dehnen W, Hands TO. 2022. MNRAS 512:34062–77
  37. Desch SJ, Jackson AP. 2021. J. Geophys. Res.: Planets 126:5e2020JE006807
  38. Do A, Tucker MA, Tonry J. 2018. Ap. J. Lett. 855:L10
  39. Doi K, Kataoka A. 2021. Ap. J. 912:2164
  40. Dones L, Brasser R, Kaib N, Rickman H. 2015. Space Sci. Rev. 197:1–4191–269
  41. Drahus M, Guzik P, Udalski A et al. 2020. Astron. Telegr. 13549:1
  42. Drahus M, Guzik P, Waniak W et al. 2018. Nat. Astron. 2:407–12
  43. Drahus M, Jewitt D, Guilbert-Lepoutre A et al. 2011. Ap. J. Lett. 734:L4
  44. Eisner N, Knight MM, Schleicher DG. 2017. Astron. J. 154:5196
  45. Engelhardt T, Jedicke R, Vereš P et al. 2017. Astron. J. 153:3133
  46. Enriquez JE, Siemion A, Lazio TJW et al. 2018. Res. Notes Am. Astron. Soc. 2:9
  47. Estrada PR, Cuzzi JN. 2022. Ap. J. 936:40
  48. Farnham TL, Knight MM, Schleicher DG et al. 2021. Planet. Sci. J. 2:7
  49. Faure M, Quirico E, Faure A et al. 2021. Icarus 364:114462
  50. Fernández YR, Kelley MS, Lamy PL et al. 2013. Icarus 226:1138–70
  51. Fitzsimmons A, Hainaut O, Meech KJ et al. 2019. Ap. J. Lett. 885:L9
  52. Fitzsimmons A, Snodgrass C, Rozitis B et al. 2018. Nat. Astron. 2:133–37
  53. Flekkøy EG, Luu J, Toussaint R. 2019. Ap. J. Lett. 885:2L41
  54. Francis L, van der Marel N. 2020. Ap. J. 892:2111
  55. Francis PJ. 2005. Ap. J. 635:21348–61
  56. Fraser WC, Pravec P, Fitzsimmons A et al. 2018. Nat. Astron. 2:383–86
  57. Fulle M, Della Corte V, Rotundi A et al. 2015. Ap. J. Lett. 802:L12
  58. Gaidos E, Williams J, Kraus A. 2017. Res. Notes Am. Astron. Soc. 1:13
  59. Garcia AJL, Gonzalez JF. 2020. MNRAS 493:21788–800
  60. Gicquel A, Bockelée-Morvan D, Zakharov VV et al. 2012. Astron. Astrophys. 542:A119
  61. Gould A, Jung YK, Hwang KH et al. 2022. J. Korean Astron. Soc. 55:173–94
  62. Gronoff G, Maggiolo R, Cessateur G et al. 2020. Ap. J. 890:89
  63. Groussin O, Attree N, Brouet Y et al. 2019. Space Sci. Rev. 215:429
  64. Gruen E, Gustafson B, Mann I et al. 1994. Astron. Astrophys. 286:915–24
  65. Grün E, Landgraf M, Horányi M et al. 2000. J. Geophys. Res 105:A510403–10
  66. Grün E, Staubach P, Baguhl M et al. 1997. Icarus 129:2270–88
  67. Grün E, Zook HA, Baguhl M et al. 1993. Nature 362:6419428–30
  68. Guzik P, Drahus M, Rusek K et al. 2020. Nat. Astron. 4:53–57
  69. Hahn JM, Malhotra R. 1999. Astron. J. 117:63041–53
  70. Hainaut OR, Boehnhardt H, Protopapa S. 2012. Astron. Astrophys. 546:A115
  71. Hajduková M Jr. 1994. Astron. Astrophys. 288:330–34
  72. Hajduková M Jr., Paulech T. 2002. Proc. of Asteroids, Comets, and Meteors: ACM 2002, ESA SP-500 B Warmbein 173–76. Noordwijk, Neth.: ESA Publ. Div.
  73. Hajduková M, Sterken V, Wiegert P, Kornoš L. 2020. Planet. Space Sci. 192:105060
  74. Hallatt T, Wiegert P. 2020. Astron. J. 159:4147
  75. Hansen B, Zuckerman B. 2017. Res. Notes Am. Astron. Soc. 1:55
  76. Harp GR, Richards J, Jenniskens P, Shostak S, Tarter JC. 2019. Acta Astronaut. 155:51–54
  77. Harrington Pinto O, Womack M, Fernandez YR, Bauer J 2022. Planet. Sci. J. 3:11247
  78. Hawkes RL, Close T, Woodworth S. 1999. Baggaley & Porubcan 1999 257–64
  79. Heinze A. 2021. Bull. Am. Astron. Soc. 53:72021n7i505p01
  80. Henderson BL, Gudipati MS. 2015. Ap. J. 800:66
  81. Higuchi A, Kokubo E. 2015. Astron. J. 150:26
  82. Higuchi A, Kokubo E. 2020. MNRAS 492:268–75
  83. Hoang T, Loeb A. 2020. Ap. J. Lett. 899:2L23
  84. Holmberg J, Nordström B, Andersen J. 2009. Astron. Astrophys. 501:3941–47
  85. Hoover DJ, Seligman DZ, Payne MJ. 2022. Planet. Sci. J. 3:371
  86. Hsieh CH, Laughlin G, Arce HG. 2021. Ap. J. 917:20
  87. Hui MT, Ye QZ, Föhring D, Hung D, Tholen DJ. 2020. Astron. J. 160:292
  88. Ishiguro M, Sarugaku Y, Ueno M et al. 2007. Icarus 189:169–83
  89. Jackson AP, Desch SJ. 2021. J. Geophys. Res.: Planets 126:5e2020JE006706
  90. Jackson AP, Tamayo D, Hammond N, Ali-Dib M, Rein H. 2018. MNRAS 478:L49–53
  91. Jewitt D. 2021. Astron. J. 161:6261
  92. Jewitt D. 2022. Astron. J. 164:4158
  93. Jewitt D, Hsieh HH. 2022. arXiv:2203.01397
  94. Jewitt D, Hui MT, Kim Y et al. 2020a. Ap. J. Lett. 888:2L23
  95. Jewitt D, Kim Y, Mutchler M et al. 2020b. Ap. J. Lett. 896:2L39
  96. Jewitt D, Luu J. 2019. Ap. J. Lett. 886:2L29
  97. Jewitt D, Luu J, Rajagopal J et al. 2017. Ap. J. Lett. 850:L36
  98. Jewitt D, Sheppard S, Fernández Y. 2003. Astron. J. 125:63366–77
  99. Jewitt DC. 2002. Astron. J. 123:21039–49
  100. Jones G. 2019. Comet Interceptor: A Mission to a Dynamically New Solar System Object. Comet Interceptor Consortium Phase-2 Proposal http://www.cometinterceptor.space/uploads/1/2/3/7/123778284/cometnterceptorxecutiveummary.pdf
  101. Kaasalainen M, Torppa J, Muinonen K. 2001. Icarus 153:37–51
  102. Kaib NA, Quinn T. 2009. Science 325:59451234–36
  103. Kareta T, Andrews J, Noonan JW et al. 2020. Ap. J. Lett. 889:2L38
  104. Kataoka A, Tanaka H, Okuzumi S, Wada K. 2013. Astron. Astrophys. 554:A4
  105. Katz JI. 2018. MNRAS 478:L95–98
  106. Kim Y, Jewitt D, Mutchler M et al. 2020. Ap. J. Lett. 895:2L34
  107. Knight MM, Protopapa S, Kelley MSP et al. 2017. Ap. J. Lett. 851:2L31
  108. Kokotanekova R, Snodgrass C, Lacerda P et al. 2018. MNRAS 479:44665–80
  109. Krijt S, Bosman AD, Zhang K et al. 2020. Ap. J. 899:2134
  110. Lacerda P, Jewitt DC. 2007. Astron. J. 133:41393
  111. Landgraf M, Baggaley WJ, Grün E, Krüger H, Linkert G. 2000. J. Geophys. Res 105:A510343–52
  112. Landgraf M, Grün E 1998. IAU Colloq. 166: The Local Bubble and Beyond Lyman-Spitzer-Colloquium, Lect. Notes Phys. Vol. 506 D Breitschwerdt, MJ Freyberg, J Truemper 381–84. Berlin/Heidelberg: Springer
  113. Laughlin G, Batygin K. 2017. Res. Notes Am. Astron. Soc. 1:43
  114. Levine WG, Cabot SHC, Seligman D, Laughlin G. 2021. Ap. J. 922:39
  115. Levine WG, Laughlin G. 2021. Ap. J. 912:3
  116. Levison HF, Duncan MJ, Brasser R, Kaufmann DE. 2010. Science 329:5988187–90
  117. Lin HW, Lee CH, Gerdes DW et al. 2020. Ap. J. Lett. 889:2L30
  118. Lisse CM, Gladstone GR, Young LA et al. 2022. Planet. Sci. J. 3:5112
  119. Long F, Pinilla P, Herczeg GJ et al. 2018. Ap. J. 869:17
  120. Lu XP, Jewitt D. 2019. Astron. J. 158:6220
  121. Luu JX, Flekkøy EG, Toussaint R. 2020. Ap. J. Lett. 900:2L22
  122. Mainzer A, Grav T, Bauer J et al. 2015. Astron. J. 149:5172
  123. Mamajek E. 2017. Res. Notes Am. Astron. Soc. 1:21
  124. Manara CF, Ansdell M, Rosotti GP et al. 2023. Protostars and Planets VII S-I Inutsuka, Y Aikawa, T Muto, K Tomida, M Tamura. In press Tucson: Univ. Ariz. Press arXiv:2203.09930
  125. Mannel T, Bentley MS, Schmied R et al. 2016. MNRAS 462:S304–11
  126. Maquet L, Colas F, Jorda L, Crovisier J. 2012. Astron. Astrophys. 548:A81
  127. Marsden BG, Sekanina Z, Yeomans DK. 1973. Astron. J. 78:211
  128. Mashchenko S. 2019. MNRAS 489:33003-21-25
  129. Mathews JD, Meisel DD, Janches D, Getman VS, Zhou QH. 1999. Baggaley & Porubcan 1999 79–82
  130. Mazzotta Epifani E, Dotto E, Perna D et al. 2021. Planet. Space Sci. 208:105341
  131. McKay AJ, Cochran AL, Dello Russo N, DiSanti MA 2020. Ap. J. Lett. 889:L10
  132. McKay AJ, DiSanti MA, Kelley MSP et al. 2019. Astron. J. 158:3128
  133. McNeill A, Trilling DE, Mommert M. 2018. Ap. J. Lett. 857:L1
  134. Meakin P, Donn B. 1988. Ap. J. Lett. 329:L39–41
  135. Mecklenburg M, Schuchardt A, Mishra YK et al. 2012. Adv. Mater. 24:263486–90
  136. Meech KJ, Weryk R, Micheli M et al. 2017. Nature 552:378–81
  137. Meisel DD, Janches D, Mathews JD. 2002a. Ap. J. 567:323–41
  138. Meisel DD, Janches D, Mathews JD. 2002b. Ap. J. 579:2895–904
  139. Micheli M, Farnocchia D, Meech KJ et al. 2018. Nature 559:223–26
  140. Miotello A, Kamp I, Birnstiel T, Cleeves LI, Kataoka A 2023. Protostars and Planets VII S-I Inutsuka, Y Aikawa, T Muto, K Tomida, M Tamura. In press Tucson: Univ. Ariz. Press arXiv:2203.09818
  141. Miville-Deschênes MA, Murray N, Lee EJ. 2017. Ap. J. 834:57
  142. Morbidelli A, Batygin K, Brasser R, Raymond SN. 2020. MNRAS 497:L46–49
  143. Moro-Martín A. 2018. Ap. J. 866:2131
  144. Moro-Martín A. 2019. Ap. J. Lett. 872:2L32
  145. Moro-Martín A. 2019. Astron. J. 157:286
  146. Moro-Martín A, Turner EL, Loeb A. 2009. Ap. J. 704:733–42
  147. Musci R, Weryk RJ, Brown P, Campbell-Brown MD, Wiegert PA. 2012. Ap. J. 745:2161
  148. Namouni F, Morais MHM. 2020. MNRAS 494:22191–99
  149. Napier KJ, Adams FC, Batygin K. 2021a. Planet. Sci. J. 2:253
  150. Napier KJ, Adams FC, Batygin K. 2021b. Planet. Sci. J. 2:6217
  151. Nesvorný D. 2018. Annu. Rev. Astron. Astrophys. 56:137–74
  152. Öberg KI, Guzmán VV, Walsh C et al. 2021. Ap. J. Suppl. 257:1
  153. Oort JH. 1950. Bull. Astron. Inst. Neth. 11:91–110
  154. Ootsubo T, Kawakita H, Hamada S et al. 2012. Ap. J. 752:15
  155. Öpik E. 1934. Harvard Coll. Obs. Circ. 389:1–9
  156. Opitom C, Fitzsimmons A, Jehin E et al. 2019. Astron. Astrophys. 631:L8
  157. Park RS, Pisano DJ, Lazio TJW, Chodas PW, Naidu SP. 2018. Astron. J. 155:185
  158. Parker AH, Kavelaars JJ. 2010. Ap. J. Lett. 722:2L204–8
  159. Peña-Asensio E, Trigo-Rodríguez JM, Rimola A. 2022. Astron. J. 164:376
  160. Peñarrubia J. 2022. MNRAS 519:21955–80
  161. Pfalzner S, Aizpuru Vargas LL, Bhandare A, Veras D 2021. Astron. Astrophys. 651:A38
  162. Pinte C, Dent WRF, Ménard F et al. 2016. Ap. J. 816:25
  163. Price EM, Cleeves LI, Bodewits D, Öberg KI. 2021. Ap. J. 913:9
  164. Rafikov RR. 2018a. Ap. J. 861:35
  165. Rafikov RR. 2018b. Ap. J. Lett. 867:L17
  166. Raymond SN, Armitage PJ, Veras D. 2018. Ap. J. Lett. 856:L7
  167. Raymond SN, Kaib NA, Armitage PJ, Fortney JJ. 2020. Ap. J. Lett. 904:L4
  168. Robin AC, Bienaymé O, Fernández-Trincado JG, Reylé C. 2017. Astron. Astrophys. 605:A1
  169. Roth NX, Gibb EL, Bonev BP et al. 2018. Astron. J. 156:6251
  170. Russell HN. 1916. Ap. J. 43:173–96
  171. Sánchez JP, Morante D, Hermosin P et al. 2021. Acta Astronaut. 188:265–77
  172. Schönrich R, Binney J, Asplund M. 2012. MNRAS 420:21281–93
  173. Sekanina Z. 2019a. arXiv:1903.06300
  174. Sekanina Z. 2019b. arXiv:1905.00935
  175. Seligman D, Laughlin G. 2018. Astron. J. 155:5217
  176. Seligman D, Laughlin G. 2020. Ap. J. Lett. 896:L8
  177. Seligman D, Laughlin G, Batygin K. 2019. Ap. J. Lett. 876:L26
  178. Seligman DZ, Levine WG, Cabot SHC, Laughlin G, Meech K. 2021. Ap. J. 920:28
  179. Seligman DZ, Rogers LA, Cabot SHC et al. 2022. Planet. Sci. J. 3:7150
  180. Siraj A, Loeb A. 2022. Ap. J. 939:53
  181. Skorov Y, Blum J. 2012. Icarus 221:1–11
  182. Steckloff JK, Lisse CM, Safrit TK et al. 2021. Icarus 356:113998
  183. Stern SA. 1990. Icarus 84:2447–66
  184. Suyama T, Wada K, Tanaka H. 2008. Ap. J. 684:21310–22
  185. Tamayo D, Burns JA, Hamilton DP, Hedman MM. 2011. Icarus 215:260–78
  186. Taylor AD, Baggaley WJ, Steel DI. 1996. Nature 380:6572323–25
  187. Taylor AG, Seligman DZ, MacAyeal DR, Hainaut OR, Meech KJ. 2023. Planet. Sci. J. 4:579
  188. Tingay SJ, Kaplan DL, Lenc E et al. 2018. Ap. J. 857:11
  189. Trilling DE, Mommert M, Hora JL et al. 2018. Astron. J. 156:261
  190. Trilling DE, Robinson T, Roegge A et al. 2017. Ap. J. Lett. 850:2L38
  191. Vaubaillon J. 2022. WGN J. Int. Meteor Organ. 50:5140–43
  192. Villenave M, Ménard F, Dent WRF et al. 2020. Astron. Astrophys. 642:A164
  193. Villenave M, Stapelfeldt KR, Duchêne G et al. 2022. Ap. J. 930:11
  194. Vokrouhlický D, Bottke WF, Chesley SR, Scheeres DJ, Statler TS 2015. Asteroids IV P Michel, FE DeMeo, WF Bottke 509–31. Tucson, AZ: Univ. Ariz. Press
  195. Volk K, Malhotra R. 2008. Ap. J. 687:714–25
  196. Warner BD, Harris AW, Pravec P. 2009. Icarus 202:134–46
  197. Weaver HA, A'Hearn MF, Arpigny C et al. 1995. Science 267:52021282–88
  198. Weryk RJ, Brown P. 2004. Earth Moon Planets 95:1–4221–27
  199. Wiegert PA. 2014. Icarus 242:112–21
  200. Williams GV, Sato H, Sarneczky K et al. 2017. Cent. Bur. Electron. Telegr. 4450:1
  201. Wilson TG, Rawlings JMC, Swinyard BM. 2017. MNRAS 466:21954–62
  202. Xing Z, Bodewits D, Noonan J, Bannister MT. 2020. Ap. J. Lett. 893:2L48
  203. Yang B, Li A, Cordiner MA et al. 2021. Nat. Astron. 5:847
  204. Ye QZ, Zhang Q, Kelley MSP, Brown PG. 2017. Ap. J. Lett. 851:L5
  205. Youdin AN, Goodman J. 2005. Ap. J. 620:459–69
  206. Zhang Q. 2018. Ap. J. Lett. 852:L13
  207. Zhang Y, Lin DNC. 2020. Nat. Astron. 4:852–60
  208. Zhou WH, Liu SF, Zhang Y, Lin DNC. 2022. Astron. Astrophys. 667:A108
/content/journals/10.1146/annurev-astro-071221-054221
Loading
The Interstellar Interlopers
Annual Review of Astronomy and Astrophysics 61, 197 (2023); https://doi.org/10.1146/annurev-astro-071221-054221
/content/journals/10.1146/annurev-astro-071221-054221
/content/journals/10.1146/annurev-astro-071221-054221
Loading

Data & Media loading...

  • Article Type: Review Article

Most Cited Most Cited RSS feed

This is a required field
Please enter a valid email address
Approval was a Success
Invalid data
An Error Occurred
Approval was partially successful, following selected items could not be processed due to error