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Magnetohydrodynamic Waves in the Solar Corona
- Valery M. Nakariakov1,2,3, and Dmitrii Y. Kolotkov1,4
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View Affiliations Hide AffiliationsAffiliations: 1Centre for Fusion, Space and Astrophysics, Physics Department, University of Warwick, Coventry CV4 7AL, United Kingdom; email: [email protected] 2School of Space Research, Kyung Hee University, Yongin, 446-701, Korea 3St. Petersburg Branch, Special Astrophysical Observatory, Russian Academy of Sciences, 196140 St. Petersburg, Russia 4Institute of Solar-Terrestrial Physics, Siberian Branch of Russian Academy of Sciences, Irkutsk 664033, Russia
- Vol. 58:441-481 (Volume publication date August 2020) https://doi.org/10.1146/annurev-astro-032320-042940
- First published as a Review in Advance on July 14, 2020
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Copyright © 2020 by Annual Reviews. All rights reserved
Abstract
The corona of the Sun is a unique environment in which magnetohydrodynamic (MHD) waves, one of the fundamental processes of plasma astrophysics, are open to a direct study. There is striking progress in both observational and theoretical research of MHD wave processes in the corona, with the main recent achievements summarized as follows:
- ▪ Both periods and wavelengths of the principal MHD modes of coronal plasma structures, such as kink, slow and sausage modes, are confidently resolved.
- ▪ Scalings of various parameters of detected waves and waveguiding plasma structures allow for the validation of theoretical models. In particular, kink oscillation period scales linearly with the length of the oscillating coronal loop, clearly indicating that they are eigenmodes of the loop. Damping of decaying kink and standing slow oscillations depends on the oscillation amplitudes, demonstrating the importance of nonlinear damping.
- ▪ The dominant excitation mechanism for decaying kink oscillations is associated with magnetized plasma eruptions. Propagating slow waves are caused by the leakage of chromospheric oscillations. Fast wave trains could be formed by waveguide dispersion.
- ▪ The knowledge gained in the study of coronal MHD waves provides ground for seismological probing of coronal plasma parameters, such as the Alfvén speed, the magnetic field and its topology, stratification, temperature, fine structuring, polytropic index, and transport coefficients.
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2020-08-18
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Literature Cited
-
Afanasyev AN, Nakariakov VM 2015. Astron. Astrophys. 573:A32
-
Allian F, Jain R, Hindman BW 2019. Ap. J. 880:3
-
Andries J, van Doorsselaere T, Roberts B et al 2009. Space Sci. Rev. 149:3–29
-
Anfinogentov SA, Nakariakov VM 2019. Ap. J. Lett.884:L40
-
Anfinogentov SA, Nakariakov VM, Nisticò G 2015. Astron. Astrophys.583:A136
-
Antolin P, De Moortel I, Van Doorsselaere T, Yokoyama T 2016. Ap. J. Lett. 830:L22
-
Antolin P, De Moortel I, Van Doorsselaere T, Yokoyama T 2017. Ap. J. 836:219
-
Antolin P, Pagano P, De Moortel I, Nakariakov VM 2018. Ap. J. Lett.861:L15
-
Antolin P, Van Doorsselaere T 2013. Astron. Astrophys.555:A74
-
Arregui I 2015. Philos. Trans. R. Soc. Lond. Ser. A 373:20140261
-
Arregui I 2018. Adv. Space Res. 61:655–72
-
Arregui I, Oliver R, Ballester JL 2012. Living Rev. Solar Phys. 9:2
-
Aschwanden MJ 2006. Philos. Trans. R. Soc. Lond. Ser. A 364:417–32
-
Ballai I 2007. Solar Phys. 246:177–85
-
Banerjee D, Gupta GR, Teriaca L 2011. Space Sci. Rev. 158:267–88
-
Banerjee D, Krishna Prasad S 2016. AGU Geophys. Monogr. Ser. 216:419–30
-
Botha GJJ, Arber TD, Nakariakov VM, Zhugzhda YD 2011. Ap. J. 728:84
-
Bradshaw SJ, Emslie AG, Bian NH, Kontar EP 2019. Ap. J. 880:80
-
Carley EP, Hayes LA, Murray SA et al 2019. Nat. Commun. 10:2276
-
Chen PF 2011. Living Rev. Solar Phys. 8:1
-
Chen SX, Li B, Xia LD, Yu H 2015a. Solar Phys. 290:2231–43
-
Chen SX, Li B, Xiong M, Yu H, Guo MZ 2015b. Ap. J. 812:22
-
Chen SX, Li B, Xiong M, Yu H, Guo MZ 2016. Ap. J. 833:114
-
Chi PJ, Russell CT, Ohtani S 2009. Geophys. Res. Lett.36:L08107
-
Cho IH, Cho KS, Nakariakov VM, Kim S, Kumar P 2016. Ap. J. 830:110
-
Claes N, Keppens R 2019. Astron. Astrophys.624:A96
-
Cranmer SR, Winebarger AR 2019. Annu. Rev. Astron. Astrophys. 57:157–87
-
De Moortel I 2009. Space Sci. Rev. 149:65–81
-
De Moortel I, Browning P 2015. Philos. Trans. R. Soc. Lond. Ser. A 373:20140269
-
De Moortel I, Hood AW 2003. Astron. Astrophys. 408:755–65
-
De Moortel I, Hood AW 2004. Astron. Astrophys. 415:705–15
-
De Moortel I, Hood AW, Gerrard CL, Brooks SJ 2004. Astron. Astrophys. 425:741–52
-
De Moortel I, Nakariakov VM 2012. Philos. Trans. R. Soc. Lond. Ser. A 370:3193–216
-
De Moortel I, Pascoe DJ 2012. Ap. J. 746:31
-
Deres AS, Anfinogentov SA 2015. Astron. Rep. 59:959–67
-
Doyle JG, Shetye J, Antonova AE et al 2018. MNRAS 475:2842–51
-
Duckenfield T, Anfinogentov SA, Pascoe DJ, Nakariakov VM 2018. Ap. J. Lett.854:L5
-
Dulk GA 1985. Annu. Rev. Astron. Astrophys. 23:169–224
-
Dymova MV, Ruderman MS 2005. Solar Phys. 229:79–94
-
Edwin PM, Roberts B 1983. Solar Phys. 88:179–91
-
Fang X, Yuan D, Van Doorsselaere T, Keppens R, Xia C 2015. Ap. J. 813:33
-
Fasoli A, Testa D, Sharapov S et al 2002. Plasma Phys. Control. Fus. 44:B159–72
-
Giagkiozis I, Goossens M, Verth G, Fedun V, Van Doorsselaere T 2016. Ap. J. 823:71
-
Goddard CR, Antolin P, Pascoe DJ 2018. Ap. J. 863:167
-
Goddard CR, Nisticò G, Nakariakov VM, Zimovets IV, White SM 2016. Astron. Astrophys.594:A96
-
Goossens M, Andries J, Soler R et al 2012. Ap. J. 753:111
-
Goossens M, Erdélyi R, Ruderman MS 2011. Space Sci. Rev. 158:289–338
-
Gosain S 2012. Ap. J. 749:85
-
Gruszecki M, Nakariakov VM, Van Doorsselaere T 2012. Astron. Astrophys. 543:A12
-
Guo M, Van Doorsselaere T, Karampelas K et al 2019. Ap. J. 870:55
-
Guo MZ, Chen SX, Li B, Xia LD, Yu H 2016. Solar Phys. 291:877–96
-
Gupta GR 2014. Astron. Astrophys.568:A96
-
Gupta GR, Banerjee D, Teriaca L, Imada S, Solanki S 2010. Ap. J. 718:11–22
-
Hindman BW, Jain R 2008. Ap. J. 677:769–80
-
Hindman BW, Jain R 2014. Ap. J. 784:103
-
Hood AW, Ruderman M, Pascoe DJ et al 2013. Astron. Astrophys.551:A39
-
Howson TA, De Moortel I, Antolin P 2017. Astron. Astrophys.602:A74
-
Huang Z, Mou C, Fu H et al 2018. Ap. J. Lett.853:L26
-
Ibanez S, Miguel H, Escalona T, Orlando B 1993. Ap. J. 415:335–41
-
Inglis AR, van Doorsselaere T, Brady CS, Nakariakov VM 2009. Astron. Astrophys. 503:569–75
-
Jackman JAG, Wheatley PJ, Pugh CE et al 2019. MNRAS 482:5553–66
-
Jess DB, Morton RJ, Verth G et al 2015. Space Sci. Rev. 190:103–61
-
Jess DB, Reznikova VE, Ryans RSI et al 2016. Nat. Phys. 12:179–85
-
Kaneda K, Misawa H, Iwai K et al 2018. Ap. J. Lett.855:L29
-
Karampelas K, Van Doorsselaere T 2018. Astron. Astrophys.610:L9
-
Karlický M, Mészárosová H, Jelínek P 2013. Astron. Astrophys. 550:A1
-
Kiddie G, De Moortel I, Del Zanna G, McIntosh SW, Whittaker I 2012. Solar Phys. 279:427–52
-
Kim S, Nakariakov VM, Shibasaki K 2012. Ap. J. Lett.756:L36
-
Klimchuk JA 2015. Philos. Trans. R. Soc. Lond. Ser. A 373:20140256
-
Kohutova P, Verwichte E 2018. Astron. Astrophys.613:L3
-
Kolotkov DY, Nakariakov VM, Kontar EP 2018a. Ap. J. 861:33
-
Kolotkov DY, Nakariakov VM, Zavershinskii DI 2019. Astron. Astrophys.628:A133
-
Kolotkov DY, Pugh CE, Broomhall AM, Nakariakov VM 2018b. Ap. J. Lett.858:L3
-
Konkol P, Murawski K, Lee D, Weide K 2010. Astron. Astrophys.521:A34
-
Kopylova YG, Melnikov AV, Stepanov AV, Tsap YT, Goldvarg TB 2007. Astron. Lett. 33:706–13
-
Krishna Prasad S, Banerjee D, Singh J 2012a. Solar Phys. 281:67–85
-
Krishna Prasad S, Banerjee D, Van Doorsselaere T 2014. Ap. J. 789:118
-
Krishna Prasad S, Banerjee D, Van Doorsselaere T, Singh J 2012b.. Astron. Astrophys. 546:A50
-
Krishna Prasad S, Jess DB, Van Doorsselaere T 2019. Front. Astron. Space Sci. 6:57
-
Krishna Prasad S, Raes JO, Van Doorsselaere T, Magyar N, Jess DB 2018. Ap. J. 868:149
-
Kumar P, Innes DE, Inhester B 2013. Ap. J. Lett.779:L7
-
Kumar P, Nakariakov VM, Cho KS 2015. Ap. J. 804:4
-
Kumar P, Nakariakov VM, Cho KS 2017. Ap. J. 844:149
-
Kupriyanova EG, Kashapova LK, Van Doorsselaere T et al 2019. MNRAS 483:5499–507
-
Kupriyanova EG, Melnikov VF, Puzynya VM, Shibasaki K, Ji HS 2014. Astron. Rep. 58:573–77
-
Kupriyanova EG, Ratcliffe H 2016. Adv. Space Res. 57:1456–67
-
Kuznetsov AA, Van Doorsselaere T, Reznikova VE 2015. Solar Phys. 290:1173–94
-
Li D, Ning ZJ, Huang Y et al 2017. Ap. J. 849:113
-
Liu W, Ofman L 2014. Solar Phys. 289:3233–77
-
Liu W, Title AM, Zhao J et al 2011. Ap. J. Lett.736:L13
-
Long DM, Bloomfield DS, Chen PF et al 2017. Solar Phys. 292:7
-
Lopin I, Nagorny I 2015. Ap. J. 810:87
-
Lopin I, Nagorny I 2019. MNRAS 488:660–75
-
Luna M, Terradas J, Oliver R, Ballester JL 2010. Ap. J. 716:1371–80
-
Magyar N, Van Doorsselaere T 2016. Astron. Astrophys. 595:A81
-
Mandal S, Magyar N, Yuan D, Van Doorsselaere T, Banerjee D 2016a. Ap. J. 820:13
-
Mandal S, Yuan D, Fang X 2016b. Ap. J. 828:72
-
Mariska JT 2006. Ap. J. 639:484–94
-
Mariska JT, Muglach K 2010. Ap. J. 713:573–83
-
Marsh MS, De Moortel I, Walsh RW 2011. Ap. J. 734:81
-
Marsh MS, Walsh RW 2009. Ap. J. Lett. 706:L76–79
-
Marsh MS, Walsh RW, Plunkett S 2009. Ap. J. 697:1674–80
-
Melnikov VF, Reznikova VE, Shibasaki K, Nakariakov VM 2005. Astron. Astrophys. 439:727–36
-
Mészárosová H, Karlický M, Rybák J, Jiřička K 2009. Ap. J. Lett. 697:L108–10
-
Mészárosová H, Rybák J, Kashapova L et al 2016. Astron. Astrophys.593:A80
-
Moon YJ, Choe GS, Park YD et al 2002. Ap. J. 574:434–39
-
Morton RJ, Tomczyk S, Pinto RF 2016. Ap. J. 828:89
-
Nakariakov VM, Afanasyev AN, Kumar S, Moon YJ 2017. Ap. J. 849:62
-
Nakariakov VM, Anfinogentov SA, Nisticò G, Lee DH 2016a. Astron. Astrophys. 591:L5
-
Nakariakov VM, Erdélyi R 2009. Space Sci. Rev. 149:1–2
-
Nakariakov VM, Foullon C, Verwichte E, Young NP 2006. Astron. Astrophys. 452:343–46
-
Nakariakov VM, Hornsey C, Melnikov VF 2012. Ap. J. 761:134
-
Nakariakov VM, Kolotkov DY, Kupriyanova EG 2019a. Plasma Phys. Control. Fusion 61:014024
-
Nakariakov VM, Kosak MK, Kolotkov DY 2019b. Ap. J. Lett.874:L1
-
Nakariakov VM, Ofman L 2001. Astron. Astrophys. 372:L53–56
-
Nakariakov VM, Pilipenko V, Heilig B 2016b. Space Sci. Rev. 200:75–203
-
Nakariakov VM, Verwichte E 2005. Living Rev. Solar Phys. 2:3
-
Nakariakov VM, Zimovets IV 2011. Ap. J. Lett.730:L27
-
Nechaeva A, Zimovets IV, Nakariakov VM, Goddard CR 2019. Ap. J. Suppl. Ser. 241:31
-
Nisticò G, Nakariakov VM, Verwichte E 2013. Astron. Astrophys.552:A57
-
Nisticò G, Pascoe DJ, Nakariakov VM 2014. Astron. Astrophys. 569:A12
-
Ofman L 2007. Ap. J. 655:1134–41
-
Ofman L 2016. AGU Geophys. Monogr. Ser. 216:241–52
-
Ofman L, Aschwanden MJ 2002. Ap. J. Lett. 576:L153–56
-
Ofman L, Liu W 2018. Ap. J. 860:54
-
Ofman L, Liu W, Title A, Aschwanden M 2011. Ap. J. Lett.740:L33
-
Ofman L, Wang T 2002. Ap. J. Lett. 580:L85–88
-
Ofman L, Wang TJ, Davila JM 2012. Ap. J. 754:111
-
Ogrodowczyk R, Murawski K, Solanki SK 2009. Astron. Astrophys. 495:313–18
-
Oliver R, Ruderman MS, Terradas J 2015. Ap. J. 806:56
-
Owen NR, De Moortel I, Hood AW 2009. Astron. Astrophys. 494:339–53
-
Pant V, Tiwari A, Yuan D, Banerjee D 2017. Ap. J.847:L5
-
Pascoe DJ, Anfinogentov SA, Goddard CR, Nakariakov VM 2018. Ap. J. 860:31
-
Pascoe DJ, Goddard CR, Nakariakov VM 2017. Ap. J. Lett.847:L21
-
Pascoe DJ, Goddard CR, Nisticò G, Anfinogentov S, Nakariakov VM 2016a. Astron. Astrophys. 589:A136
-
Pascoe DJ, Goddard CR, Nisticò G, Anfinogentov S, Nakariakov VM 2016b. Astron. Astrophys. 585:L6
-
Pascoe DJ, Hood AW, De Moortel I, Wright AN 2013a. Astron. Astrophys. 551:A40
-
Pascoe DJ, Hood AW, Van Doorsselaere T 2019. Front. Astron. Space Sci. 6:22
-
Pascoe DJ, Nakariakov VM 2016. Astron. Astrophys. 593:A52
-
Pascoe DJ, Nakariakov VM, Arber TD, Murawski K 2009. Astron. Astrophys. 494:1119–25
-
Pascoe DJ, Nakariakov VM, Kupriyanova EG 2013b. Astron. Astrophys. 560:A97
-
Pascoe DJ, Wright AN, De Moortel I 2011. Ap. J. 731:73
-
Peter H 2015. Philos. Trans. R. Soc. Lond. Ser. A 373:20150055
-
Porter LJ, Klimchuk JA, Sturrock PA 1994. Ap. J. 435:482–501
-
Provornikova E, Ofman L, Wang T 2018. Adv. Space Res. 61:645–54
-
Pugh CE, Armstrong DJ, Nakariakov VM, Broomhall AM 2016. MNRAS 459:3659–76
-
Reale F 2014. Living Rev. Solar Phys. 11:4
-
Reale F 2016. Ap. J. Lett.826:L20
-
Reale F, Lopez-Santiago J, Flaccomio E, Petralia A, Sciortino S 2018. Ap. J. 856:51
-
Reznikova VE, Shibasaki K 2011. Astron. Astrophys. 525:A112
-
Roberts B 2000. Solar Phys. 193:139–52
-
Roberts B, Edwin PM, Benz AO 1984. Ap. J. 279:857–65
-
Ruderman MS 2013. Astron. Astrophys.553:A23
-
Ruderman MS, Petrukhin NS, Pelinovsky E 2016. Solar Phys. 291:1143–57
-
Russell AJB, Simões PJA, Fletcher L 2015. Astron. Astrophys.581:A8
-
Selwa M, Murawski K, Solanki SK 2005. Astron. Astrophys. 436:701–9
-
Simões PJA, Fletcher L, Hudson HS, Russell AJB 2013. Ap. J. 777:152
-
Soler R, Luna M 2015. Astron. Astrophys.582:A120
-
Srivastava AK, Lalitha S, Pandey JC 2013. Ap. J. Lett.778:L28
-
Su JT, Liu Y, Liu S et al 2013. Ap. J. 762:42
-
Tan B, Yu Z, Huang J, Tan C, Zhang Y 2016. Ap. J. 833:206
-
Taroyan Y, Erdélyi R, Doyle JG, Bradshaw SJ 2005. Astron. Astrophys. 438:713–20
-
Terradas J 2009. Space Sci. Rev. 149:255–82
-
Terradas J, Andries J, Goossens M 2008a. Ap. J. Lett. 687:L115–18
-
Terradas J, Arregui I, Oliver R 2008b. Ap. J. 679:1611–20
-
Tian H, McIntosh SW, Habbal SR, He J 2011. Ap. J. 736:130
-
Tian H, McIntosh SW, Wang T et al 2012. Ap. J. 759:144
-
Tian H, Young PR, Reeves KK et al 2016. Ap. J. Lett.823:L16
-
Tomczyk S, McIntosh SW 2009. Ap. J. 697:1384–91
-
Tsiklauri D, Nakariakov VM, Arber TD, Aschwanden MJ 2004. Astron. Astrophys. 422:351–55
-
Uritsky VM, Davila JM, Viall NM, Ofman L 2013. Ap. J. 778:26
-
Van Doorsselaere T, Antolin P, Yuan D, Reznikova V, Magyar N 2016. Front. Astron. Space Sci. 3:4
-
Van Doorsselaere T, De Groof A, Zender J, Berghmans D, Goossens M 2011a. Ap. J. 740:90
-
Van Doorsselaere T, Kupriyanova EG, Yuan D 2016. Solar Phys. 291:3143–64
-
Van Doorsselaere T, Verwichte E, Terradas J 2009. Space Sci. Rev. 149:299–324
-
Van Doorsselaere T, Wardle N, Del Zanna G 2011b. Ap. J. 727:L32
-
Vasheghani Farahani S, Hornsey C, Van Doorsselaere T, Goossens M 2014. Ap. J. 781:92
-
Verth G, Erdélyi R 2008. Astron. Astrophys. 486:1015–22
-
Verwichte E, Haynes M, Arber TD, Brady CS 2008. Ap. J. 685:1286–90
-
Verwichte E, Marsh M, Foullon C et al 2010. Ap. J. Lett. 724:L194–98
-
Verwichte E, Van Doorsselaere T, Foullon C, White RS 2013. Ap. J. 767:16
-
Wang T 2011. Space Sci. Rev. 158:397–419
-
Wang T, Innes DE, Qiu J 2007. Ap. J. 656:598–609
-
Wang T, Ofman L, Davila JM 2013. Ap. J. Lett.775:L23
-
Wang T, Ofman L, Davila JM, Su Y 2012. Ap. J. Lett.751:L27
-
Wang T, Ofman L, Sun X, Provornikova E, Davila JM 2015. Ap. J. Lett.811:L13
-
Wang T, Ofman L, Sun X, Solanki SK, Davila JM 2018. Ap. J. 860:107
-
Wang TJ 2016. AGU Geophys. Monogr. Ser. 216:395–418
-
Wang YM 2009. Space Sci. Rev. 144:383–99
-
Yu S, Nakariakov VM, Selzer LA, Tan B, Yan Y 2013. Ap. J. 777:159
-
Yuan D, Nakariakov VM 2012. Astron. Astrophys.543:A9
-
Yuan D, Nakariakov VM, Chorley N, Foullon C 2011. Astron. Astrophys.533:A116
-
Yuan D, Shen Y, Liu Y et al 2013. Astron. Astrophys.554:A144
-
Yuan D, Van Doorsselaere T 2016. Ap. J. Suppl. Ser. 223:23
-
Yuan D, Van Doorsselaere T, Banerjee D, Antolin P 2015. Ap. J. 807:98
-
Zaitsev VV, Stepanov AV 1989. Sov. Astron. Lett. 15:66–68
-
Zajtsev VV, Stepanov AV 1975. Issled. Geomagn. Aeron. Fiz. Solntsa 37:3–10
-
Zavershinskii DI, Kolotkov DY, Nakariakov VM, Molevich NE, Ryashchikov DS 2019. Phys. Plasmas 26:082113
-
Zhang Y, Zhang J, Wang J, Nakariakov VM 2015. Astron. Astrophys.581:A78
-
Zhugzhda YD 1996. Phys. Plasmas 3:10–21
-
Zimovets IV, Nakariakov VM 2015. Astron. Astrophys.577:A4
/content/journals/10.1146/annurev-astro-032320-042940
Magnetohydrodynamic Waves in the Solar Corona
Annual Review of Astronomy and Astrophysics 58, 441 (2020); https://doi.org/10.1146/annurev-astro-032320-042940
/content/journals/10.1146/annurev-astro-032320-042940
/content/journals/10.1146/annurev-astro-032320-042940
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