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In this paper, we investigated 82 type-II radio burst events detected by some ground stations Learmonth, YNAO, and BIRS and spacecraft Wind/WAVES, STEREO/WAVES from January 2007 to December 2015. And we identified 39 events associated with radio enhancement and 43 events without enhancement. We found that: 1) The CME velocity, mass, kinetic energy and flare class with respect to type II radio enhancement events were generally higher than that of no enhancement events, and these properties in the solar energetic particle (SEP) events were significantly higher than that no SEP event, regardless of whether radio enhancement or not. 2) As shown in the characteristic time analysis, the initial release time of SEPs is generally earlier than the start time of radio enhancement, so we can the radio enhancement is only as a signature of the shock enhancement rather than the direct generator of SEP events. 3) Whether radio enhancement or not, the onset height of type IIs associated with SEP event is slightly lower than that of event without SEP. For the absence height, the SEP events are significantly higher than the no-SEP events, and that the absence height of enhancement events are also distinctly higher than that non-enhancement events, which reveals that the enhanced CME shock characterized by enhanced radio burst can keep propagating to more higher or further space. 4) When one fast and wide CME fully sweeps over another slow and narrow preceding CME, CME interaction can more easily generate radio enhancement, but no distinctive difference between SEP events and non-SEP events. So the results of this paper reveal that radio enhancement can be regarded as a manifestation of CME shock becoming strong during interacting with other CME, and the enhanced shock can accelerate the particle to generate large SEP events more easily. However, the type II radio enhancement is not the direct producer or causer that generate large SEP event.
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Keywords:
- type II radio burst /
- radio enhancement /
- solar energetic particle (SEP) /
- shock enhancement
[1] Vršnak B, Cliver E W 2008 Sol. Phys. 253 215Google Scholar
[2] Kahler S W 2001 J. Geophys. Res. 106 20947Google Scholar
[3] Reames D V 1999 Space. Sci. Rev. 90 413Google Scholar
[4] Cliver E W, Kahler S W 2004 Astrophys. J. 605 902Google Scholar
[5] Gopalswamy N, Xie H, Yashiro S, Akiyama S, Mäkelä P, Usoskin I G 2012 Space. Sci. Rev. 171 23Google Scholar
[6] Ding L G, Jiang Y, Li G 2016 Astrophys. J. 818 169Google Scholar
[7] Vainio R, Agueda N, Aran A, Lario D 2007 Space Weather. Springer Netherlands. pp 27–37
[8] Cane H V, von Rosenvinge T T, Cohen C M S, Mewaldt R A 2003 Geophys. Res. Lett. 30 8017Google Scholar
[9] Li C, Tang Y H, Dai Y, Fang C, Vial C 2007 Astron. Astrophys. 472 283Google Scholar
[10] Le G M, Zhang X F 2017 Res. Astron. Astrophys. 17 123Google Scholar
[11] Le G M, Li C, Zhang X F 2017 Res. Astron. Astrophys. 17 73Google Scholar
[12] Wu S S, Qin G 2018 J. Geophys. Res-Space Phys. 123 76Google Scholar
[13] Zhao M X, Le G M, Chi Y T 2018 Res. Astron. Astrophys. 18 74Google Scholar
[14] Zhao M X, Le G M 2020 Res. Astron. Astrophys. 20 37Google Scholar
[15] Mason G M, Mazur J E, Dwyer J R 1999 Astrophys. J. 525 133Google Scholar
[16] Mason G M, Dwyer J R, Mazur J E 2000 Astrophys. J. 545 157Google Scholar
[17] Gopalswamy N, Yashiro S, Michałek G, Kaiser M L, Howard R A, Reames D V, Leske R, von Rosenvinge T 2002 Astrophys. J. 572 103Google Scholar
[18] Gopalswamy N, Yashiro S, Krucker S, Stenborg G, Howard R A 2004 J. Geophys. Res-Space. 109 12105Google Scholar
[19] Li G, Moore R, Mewaldt R A, Zhao L, Labrador A W 2012 Space. Sci. Rev. 171 141Google Scholar
[20] Shen C L, Wang Y M, Ye P Z, Zhao X P, Gui B, Wang S 2007 Astrophys. J. 670 849Google Scholar
[21] Gopalswamy N, Aguilar-Rodriguez E, Yashiro S, Nunes S, Kaiser M L, Howard R A 2005 J. Geophys. Res. 110 12Google Scholar
[22] Winter L M, Ledbetter K 2015 Astrophys. J. 809 105Google Scholar
[23] Gopalswamy N, Yashiro S, Kaiser M L, Howard R A, Bougeret J L 2001 Astrophys. J. 548 91Google Scholar
[24] Ding L G, Li G, Jiang Y, Le G M, Shen C L, Wang Y M, Chen Y, Xu F, Gu B, Zhang Y N 2014 Astrophys. J. 793 35Google Scholar
[25] Ding L G, Wang Z W, Feng L, Li G, Jiang Y 2019 Res. Astron. Astrophys. 19 1Google Scholar
[26] Al-Hamadani F, Pohjolainen S, Valtonen E 2017 Sol. Phys. 292 127Google Scholar
[27] Brueckner G E, Howard R A, Koomen M J, Korendyke C M, Michels D J, Moses J D, Socker D G, Dere K P, Lamy P L, Llebaria A, Bout M V, Schwenn R, Simnett G M, Bedford D K, Eyles C J 1995 Sol. Phys. 162 357Google Scholar
[28] Müller-Mellin R, Kunow H, Fleißner V, Pehlke E, Rode E, Röschmann N, Scharmberg C, Sierks H, Rusznyak P, Mckenna-Lawlor S, Elendt I, Sequeiros J, Meziat D, Sanchez S, Medina J, del Peral L, Witte M, Marsden R, Henrion J 1995 Sol. Phys. 162 483Google Scholar
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[30] 王智伟, 丁留贯, 周坤论, 乐贵明 2018 地球 61 3515Google Scholar
Wang Z W, Ding L G, Zhou K L, Le G M 2018 Chin. J. Geophys. 61 3515Google Scholar
[31] Tylka A J, Cohen C M S, Dietrich W F, Krucker S, McGuire R E, Mewaldt R A, Ng C K, Reames D V, Share G H 2003 The 28 th International Cosmic Ray Conference 6 3305
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[33] 乐贵明, 唐玉华, 韩延本 2007 科学通报 52 2461Google Scholar
Le G M, Tang Y H, Han Y B 2007 Chin. Sci. Bull. 52 2461Google Scholar
[34] Newkirk G Jr 1961 Astrophys. J. 133 983Google Scholar
[35] Vršnak B, Magdalenić J, Zlobec P 2004 Astron. Astrophys. 413 753Google Scholar
[36] Saito K, Poland A I, Munro R H 1977 Sol. Phys. 55 121Google Scholar
[37] Gopalswamy N, S Yashiro 2011 Astrophys. J. 736 17Google Scholar
[38] Mäkelä P, Gopalswamy N, Akiyama S, Xie H, Yashiro S 2015 Astrophys. J. 806 13Google Scholar
[39] Kocharov L, Pohjolainen S, Mishev A, Reiner M J, Lee J, Laitinen T, Didkovsky L V, Pizzo V J, Kim R, Klassen A, Karlicky M, Cho K S, Gary D E, Usoskin I, Valtonen E, Vainio R 2017 Astrophys. J. 839 79Google Scholar
[40] Temmer M, Vršnak B, Rollett T, Bein B, Koning D, Liu Y, Bosman E, Davies J A, Most C, Zic T, Veronig A M, Bothmer V, Harrison R, Nitta N, Bisi M, Flor O, Eastwood J, Odstrcil D, Forsyth R 2012 Astrophys. J. 749 57Google Scholar
[41] Ding L G, Jiang Y, Zhao L L, Li G 2013 Astrophys. J. 763 30Google Scholar
[42] Martínez Oliveros J C, Raftery C L, Bain H M, Liu Y, Krupar V, Bale S, Krucker S 2012 Astrophys. J. 748 66Google Scholar
[43] 周坤论, 丁留贯, 王智伟, 封莉 2019 68 13Google Scholar
Zhou K L, Ding L G, Wang Z W, Feng L 2019 Acta Phys. Sin. 68 13Google Scholar
[44] Bemporad A, Mancuso S 2013 J. Adv. Res. 4 287Google Scholar
[45] Sheeley Jr N R, Hakala W N, Wang Y M 2000 J. Geophys. Res. 105 5081Google Scholar
[46] Vourlidas A, Wu S T, Wang A H, Subramanian P, Howard R A 2003 J. Adv. Res. 598 1392Google Scholar
[47] Cho K S, Lee J, Moon Y J, Dryer M, Bong S C, Kim Y H, Park Y D 2007 Astron. Astrophys. 461 1121Google Scholar
[48] Cho K S, Bong S C, Kim Y H, Moon Y J, Dryer M, Shanmugaraju A, Lee J, Park Y D 2008 Astron. Astrophys. 491 873Google Scholar
[49] Feng S W, Chen Y, Kong X L, Li G, Song H Q, Feng X S, Ying Liu 2012 Astrophys. J. 753 21Google Scholar
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图 5 以SEP事件起始时刻作为参考点0, 各时间点与参考点之差的统计直方图. II型射电暴起始(T1红色)和结束时刻(T2蓝色)、射电增强起始(T3紫色)和结束时刻(T4绿色)、SEP峰值时刻(T5灰色)
Figure 5. Uses the starting moment of the SEP events as the reference point (0), histogram of the difference between type II radio burst start /stop time(T1/T2), radio enhancement start/stop(T3/T4), SEP stop time(T5) and the reference point respectively.
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[1] Vršnak B, Cliver E W 2008 Sol. Phys. 253 215Google Scholar
[2] Kahler S W 2001 J. Geophys. Res. 106 20947Google Scholar
[3] Reames D V 1999 Space. Sci. Rev. 90 413Google Scholar
[4] Cliver E W, Kahler S W 2004 Astrophys. J. 605 902Google Scholar
[5] Gopalswamy N, Xie H, Yashiro S, Akiyama S, Mäkelä P, Usoskin I G 2012 Space. Sci. Rev. 171 23Google Scholar
[6] Ding L G, Jiang Y, Li G 2016 Astrophys. J. 818 169Google Scholar
[7] Vainio R, Agueda N, Aran A, Lario D 2007 Space Weather. Springer Netherlands. pp 27–37
[8] Cane H V, von Rosenvinge T T, Cohen C M S, Mewaldt R A 2003 Geophys. Res. Lett. 30 8017Google Scholar
[9] Li C, Tang Y H, Dai Y, Fang C, Vial C 2007 Astron. Astrophys. 472 283Google Scholar
[10] Le G M, Zhang X F 2017 Res. Astron. Astrophys. 17 123Google Scholar
[11] Le G M, Li C, Zhang X F 2017 Res. Astron. Astrophys. 17 73Google Scholar
[12] Wu S S, Qin G 2018 J. Geophys. Res-Space Phys. 123 76Google Scholar
[13] Zhao M X, Le G M, Chi Y T 2018 Res. Astron. Astrophys. 18 74Google Scholar
[14] Zhao M X, Le G M 2020 Res. Astron. Astrophys. 20 37Google Scholar
[15] Mason G M, Mazur J E, Dwyer J R 1999 Astrophys. J. 525 133Google Scholar
[16] Mason G M, Dwyer J R, Mazur J E 2000 Astrophys. J. 545 157Google Scholar
[17] Gopalswamy N, Yashiro S, Michałek G, Kaiser M L, Howard R A, Reames D V, Leske R, von Rosenvinge T 2002 Astrophys. J. 572 103Google Scholar
[18] Gopalswamy N, Yashiro S, Krucker S, Stenborg G, Howard R A 2004 J. Geophys. Res-Space. 109 12105Google Scholar
[19] Li G, Moore R, Mewaldt R A, Zhao L, Labrador A W 2012 Space. Sci. Rev. 171 141Google Scholar
[20] Shen C L, Wang Y M, Ye P Z, Zhao X P, Gui B, Wang S 2007 Astrophys. J. 670 849Google Scholar
[21] Gopalswamy N, Aguilar-Rodriguez E, Yashiro S, Nunes S, Kaiser M L, Howard R A 2005 J. Geophys. Res. 110 12Google Scholar
[22] Winter L M, Ledbetter K 2015 Astrophys. J. 809 105Google Scholar
[23] Gopalswamy N, Yashiro S, Kaiser M L, Howard R A, Bougeret J L 2001 Astrophys. J. 548 91Google Scholar
[24] Ding L G, Li G, Jiang Y, Le G M, Shen C L, Wang Y M, Chen Y, Xu F, Gu B, Zhang Y N 2014 Astrophys. J. 793 35Google Scholar
[25] Ding L G, Wang Z W, Feng L, Li G, Jiang Y 2019 Res. Astron. Astrophys. 19 1Google Scholar
[26] Al-Hamadani F, Pohjolainen S, Valtonen E 2017 Sol. Phys. 292 127Google Scholar
[27] Brueckner G E, Howard R A, Koomen M J, Korendyke C M, Michels D J, Moses J D, Socker D G, Dere K P, Lamy P L, Llebaria A, Bout M V, Schwenn R, Simnett G M, Bedford D K, Eyles C J 1995 Sol. Phys. 162 357Google Scholar
[28] Müller-Mellin R, Kunow H, Fleißner V, Pehlke E, Rode E, Röschmann N, Scharmberg C, Sierks H, Rusznyak P, Mckenna-Lawlor S, Elendt I, Sequeiros J, Meziat D, Sanchez S, Medina J, del Peral L, Witte M, Marsden R, Henrion J 1995 Sol. Phys. 162 483Google Scholar
[29] von Rosenvinge T T, Reames D V, Baker R, Hawk J, Nolan J T, Ryan L, Shuman S, Wortman K A, Mewaldt R A, Cummings A C, Cook W R, Labrador A W, Leske R A, Wiedenbeck M E 2008 Space. Sci. Rev. 136 391Google Scholar
[30] 王智伟, 丁留贯, 周坤论, 乐贵明 2018 地球 61 3515Google Scholar
Wang Z W, Ding L G, Zhou K L, Le G M 2018 Chin. J. Geophys. 61 3515Google Scholar
[31] Tylka A J, Cohen C M S, Dietrich W F, Krucker S, McGuire R E, Mewaldt R A, Ng C K, Reames D V, Share G H 2003 The 28 th International Cosmic Ray Conference 6 3305
[32] Kim R S, Cho K S, Lee J, Bong S C, Park Y D 2014 J. Geophys. Res-Space. 119 9419Google Scholar
[33] 乐贵明, 唐玉华, 韩延本 2007 科学通报 52 2461Google Scholar
Le G M, Tang Y H, Han Y B 2007 Chin. Sci. Bull. 52 2461Google Scholar
[34] Newkirk G Jr 1961 Astrophys. J. 133 983Google Scholar
[35] Vršnak B, Magdalenić J, Zlobec P 2004 Astron. Astrophys. 413 753Google Scholar
[36] Saito K, Poland A I, Munro R H 1977 Sol. Phys. 55 121Google Scholar
[37] Gopalswamy N, S Yashiro 2011 Astrophys. J. 736 17Google Scholar
[38] Mäkelä P, Gopalswamy N, Akiyama S, Xie H, Yashiro S 2015 Astrophys. J. 806 13Google Scholar
[39] Kocharov L, Pohjolainen S, Mishev A, Reiner M J, Lee J, Laitinen T, Didkovsky L V, Pizzo V J, Kim R, Klassen A, Karlicky M, Cho K S, Gary D E, Usoskin I, Valtonen E, Vainio R 2017 Astrophys. J. 839 79Google Scholar
[40] Temmer M, Vršnak B, Rollett T, Bein B, Koning D, Liu Y, Bosman E, Davies J A, Most C, Zic T, Veronig A M, Bothmer V, Harrison R, Nitta N, Bisi M, Flor O, Eastwood J, Odstrcil D, Forsyth R 2012 Astrophys. J. 749 57Google Scholar
[41] Ding L G, Jiang Y, Zhao L L, Li G 2013 Astrophys. J. 763 30Google Scholar
[42] Martínez Oliveros J C, Raftery C L, Bain H M, Liu Y, Krupar V, Bale S, Krucker S 2012 Astrophys. J. 748 66Google Scholar
[43] 周坤论, 丁留贯, 王智伟, 封莉 2019 68 13Google Scholar
Zhou K L, Ding L G, Wang Z W, Feng L 2019 Acta Phys. Sin. 68 13Google Scholar
[44] Bemporad A, Mancuso S 2013 J. Adv. Res. 4 287Google Scholar
[45] Sheeley Jr N R, Hakala W N, Wang Y M 2000 J. Geophys. Res. 105 5081Google Scholar
[46] Vourlidas A, Wu S T, Wang A H, Subramanian P, Howard R A 2003 J. Adv. Res. 598 1392Google Scholar
[47] Cho K S, Lee J, Moon Y J, Dryer M, Bong S C, Kim Y H, Park Y D 2007 Astron. Astrophys. 461 1121Google Scholar
[48] Cho K S, Bong S C, Kim Y H, Moon Y J, Dryer M, Shanmugaraju A, Lee J, Park Y D 2008 Astron. Astrophys. 491 873Google Scholar
[49] Feng S W, Chen Y, Kong X L, Li G, Song H Q, Feng X S, Ying Liu 2012 Astrophys. J. 753 21Google Scholar
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