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太阳活动峰年和谷年期间黑子群与耀斑的统计分析
Statistical analysis of sunspot groups and flares for solar maximum and minimum

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赵明宇 1   陈军权 2   刘煜 1 *   Ibrahim Ahmed 3   闫晓理 2   敦金平 4  
文摘 基于NOAA/SWPC 公布的太阳活动数据, 我们选取第24太阳活动峰年附近的12个连续月份(2011年7月至2012年6月)和第23太阳活动周谷年附近的12个连续月份(2005年7月至2006年6月),统计了这两段时间中太阳黑子群和耀斑的活动规律,并根据时间、黑子群分布纬度、寿命和磁场类型等对峰年和谷年进行了详细分析和比较, 主要结论如下所述. (1)黑子群数随时间的变化在峰年和谷年均比较随机, 峰年期间黑子数比谷年增多1.5倍左右. 耀斑爆发与黑子群活动具有良好的相关性, 但峰年期间存在某个月份耀斑数很少的现象, 而谷年期间存在某个月份耀斑数集中增多的现象. (2)无论峰年还是谷年, δ 类型黑子群的耀斑产率(耀斑总数与黑子群总数之比)最大, 但β型黑子群产生的耀斑爆发最多. 耀斑产率与磁场类型有密切关系, 但与其所处太阳活动周中的阶段无关. (3)黑子群和耀斑的纬度分布的南北不对称性, 以X 级耀斑最为显著. 峰年较谷年的耀斑数增加主要集中在C 级和M 级. (4)耀斑产率同黑子群寿命具有良好的相关性, 但黑子群的数目同它们的寿命之间没有明显的规律.
其他语种文摘 Based on the NOAA/SWPC data, by choosing two separative periods with successive 12 months, that is, 2005 July–2006 June (during the solar minimum) and 2011 July–2012 June (during the solar maximum), we analyze the activity of flares and compare the statistical results between the two periods for studying their evolution with time, sunspot distribution, sunspot lifetime and magnetic field types. The main conclusions are: (1) The time variation of sunspot groups number is random for both the solar minimum and maximum periods. The sunspot number during the solar maximum is about 1.5 times larger than during the solar minimum. The flare number shows good correlation with the sunspot group number. During solar maximum there may be very few flares for some months, while during solar minimum there can be plenty of flares for some months, indicating the importance of keeping monitoring for solar activities even during the solar minimum period. (2) The δ -sunspot groups have the highest flare productivity (the ratio of flare amount to sunspot group number) for both solar minimum and maximum, while the β -sunspot groups have produced the most flares. The flare productivity of sunspot groups has close relation with magnetic field type, and it has no obvious relation with the state of solar cycle.(3) There is serious asymmetry in the distribution for flares, especially for X-class flares. The increase of the flares number from solar minimum to maximum is mainly caused by C-and M-class flares. (4) The number of sunspot groups has no obvious correlation with their lifetime, while the flare productivity shows well correlation with sunspot lifetime for all periods.
来源 中国科学. 物理学 , 力学, 天文学,2014,44(1):109-120 【核心库】
DOI 10.1360/132012-809
关键词 太阳活动周期 ; 耀斑分布 ; 黑子统计
地址

1. 中国科学院云南天文台, 中国科学院太阳活动重点实验室, 昆明, 650011  

2. 中国科学院云南天文台, 昆明, 650011  

3. Physics and Astronomy Department, College of Science, King Saud University, Saudi Arabia, Riyadh, 11451  

4. 中国气象局国家空间天气中心, 北京, 100081

语种 中文
文献类型 研究性论文
ISSN 1674-7275
基金 国家自然科学基金 ;  国家973计划 ;  中国科学院知识创新工程重要方向项目 ;  中国科学院太阳活动重点实验室开放课题
文献收藏号 CSCD:5043323

参考文献 共 32 共2页

1.  Hale G. Magnetic Observations of Sunspots, 1917-1924,1938 被引 1    
2.  McIntosh P S. The classification of sunspot groups. Solar Phys,1990,125:251-267 被引 21    
3.  Wheatland M S. Rates of flaring in individual active regions. Solar Phys,2001,203:87-106 被引 3    
4.  Giovanelli R G. The relations between eruptions and sunspots. Astrophys J,1939,89:555-567 被引 2    
5.  Greatrix G R. On the statistical relations between flare intensity and sunspots. Mon Not Roy Astron Soc,1963,126:123-133 被引 1    
6.  Kildahl K. Solar-Terrestrial Predictions Proceedings 3,1980:166-166 被引 1    
7.  Atac T. Statistical relationship between sunspots and major flares. Astrophys Space Sci,1987,129:203-208 被引 3    
8.  Bornmann P L. Flare rates and the McIntosh active-region classifications. Solar Phys,1994,150:127-146 被引 8    
9.  Sammis I. The dependence of large flare occurrence on the magnetic structure of sunspots. Astrophys J,2000,540:583-587 被引 6    
10.  Zhang H. Magnetic shear of a large delta sunspot group (NOAA 6659) in June 1991. Astron Astrophys,1995,297:869-880 被引 1    
11.  Liu Y. Relationship between magnetic evolution and major flare event on July 14. Astron Astrophys,2001,372:1019-1029 被引 12    
12.  Liu Y. Analysis of delta spot. Astron Astrophys,2002,386:646-652 被引 3    
13.  Chumak O V. A stochastic method of describing the evolution of solar active regions (in Russian). Kinematika i Fizika Nebesnykh Tel,1987,3:7-13 被引 1    
14.  Guo J. A quantitative study on magnetic configuration for active regions. Solar Phys,2006,237:25-43 被引 2    
15.  Guo J. The evolution of the quantified magnetic complexity of active regions in the 23rd solar cycle. Mon Not R Astron Soc,2010,405:111-114 被引 1    
16.  Cui Y M. Correlation between solar flare productivity and photospheric magnetic field properties. Solar Phys,2006,237:45-59 被引 11    
17.  Yang X. A statistical study on photospheric magnetic nonpotentiality of active regions and its relationship with flares during solar cycles 22-23. Solar Phys,2012,280:165-181 被引 6    
18.  Zirin H. Delta spots and great flares. Solar Phys,1987,133:267-283 被引 8    
19.  Jakimiec M. A multivariate comparison of delta and of other magnetic class sunspot groups. Acta Astron,1991,41:61-71 被引 1    
20.  Shi Z. Delta-sunspots and X-class flares. Solar Phys,1994,149:105-118 被引 3    
引证文献 9

1 李蓉 太阳耀斑预报研究进展 科学通报,2014,59(25):2452-2463
被引 2

2 冯雯 太阳半径变化特征分析 中国科学. 物理学, 力学, 天文学,2015,45(9):099602-1-099602-7
被引 0 次

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