以作者查詢圖書館館藏 、以作者查詢臺灣博碩士 、以作者查詢全國書目 、勘誤回報 、線上人數:91 、訪客IP:18.226.88.70
姓名 余秀珊(Hsiu-Shan Yu) 查詢紙本館藏 畢業系所 太空科學研究所 論文名稱 利用台灣日震觀測網的太陽影像資料研究 太陽差動自轉的變化情形
(A Study of Solar Differential Rotation Based on Solar Images Obtained From Taiwan Oscillation Network )相關論文 檔案 [Endnote RIS 格式] [Bibtex 格式] [相關文章] [文章引用] [完整記錄] [館藏目錄] [檢視] [下載]
- 本電子論文使用權限為同意立即開放。
- 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
- 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。
摘要(中) 太陽的差動自轉(solar differential rotation)可將原本南北方向的磁
偶極場(poloidal field)拉成東西方向(toroidal field)。因此太陽差動自轉
在太陽磁場的週期變化中,扮演著很重要的角色。早期科學家從追踨
太陽黑子(sunspots)的運動所得到的太陽差動自轉模式受到太陽黑子
分佈情形的限制,在時空解析度上,很難再進一步提升。台灣日震觀
測網(Taiwan Oscillation Network, TON)提供一分鐘一張高時空解析度
的broadband K-line image。這些K-line 影像圖中除了太陽黑子與明亮
的譜斑(plages) 外還有超米粒組織的明亮邊界(supergranulation
boundaries,SGB),都可以作為研究太陽差動自轉的追蹤標記。由於
超米粒組織的明亮邊界的緯度分佈甚廣且數量不受太陽週期的影
響,因此藉著分析TON K-line image 可得高時空解析度之太陽表面差
動自轉的情形。
在本論文的研究中,我們從1994 年起,每年分析數日已經
remapped 的TON 資料來研究太陽差動自轉隨太陽週期的變化情形。
初步的結果發現,在1994~2000 年間,太陽的轉速在北半球,有逐年
減慢的趨勢,但在南半球,則是逐年的增快。但是進一步的檢驗
remapped 的資料後,發現有一部分的南北不對稱性是受到不正確的
remapped 影像的影響。因此本論文在太陽差動自轉隨太陽週期變化
方面的研究仍未成功。但是在本研究中,我們設計了一種只要半天的
資料量,就可以很快的求得太陽在不同緯度的自轉角速率。我們同時
找到一種檢驗remapped 結果是否正確的方法。相信我們所研發的這
兩項資料分析方法,將對未來利用TON 資料做日震分析的研究有很
大的幫助。
i摘要(英) Solar latitudinal differential rotation, which can generate toroidal
magnetic field from a poloidal magnetic field, plays an important role on
solar dynamo and formation of solar cycle. Solar differential rotation
was first found by tracing sunspots’’ motion. The well-known solar
differential rotation formula obtained from sunspots’’ motion is only
applicable to the middle- and lower- latitude regions and has a poor
latitudinal resolution during solar minimum. Supergranulations, or
chromosphere networks, or plages are excellent targets for studying solar
differential rotation in all latitudes and during different phases of solar
cycle. The one-minute broadband K-line images obtained from Taiwan
Oscillation Network (TON) provide an opportunity to study differential
rotation of supergranulations or plages up to very high latitude.
Our preliminary results show that weak north-south asymmetry on
solar differential rotation is found during years 1994~1997. Strong
north-south asymmetry on solar differential rotation is found during years
1998~2000. According to our preliminary study, solar rotation rate
decreases with time in northern hemisphere, but increases with time in
southern hemisphere during years 1994~2000. However, further study
indicates that the strong north-south asymmetry on solar differential
rotation may partially due to incorrect mapping of the TON data sets we
used in this thesis. Thus, our study of solar cycle dependence on solar
differential rotation is not fully successful. But, in this thesis we have
developed a very efficient way to obtain solar rotation rate at different
latitude. We have also found a simple way to check and to improve the
accuracy of a remapped image. Therefore, using the techniques
developed in this thesis can provide accurate remapped images and
real-time solar differential rotation information for future solar
seismology study using TON data sets.關鍵字(中) ★ 太陽差動自轉
★ 日震學關鍵字(英) ★ solar differential rotation
★ helioseismology or solar seismology論文目次 中文摘要………………………………………………………………….i
英文摘要…………………………………………………………………ii
誌謝……………………………………………………………………...iii
目錄……………………………………………………………………...iv
圖目錄……………………………………………………………………v
表目錄………………………………………………………………….viii
第一章導論……………………………………………………………1
1.1. 研究動機……………………………………………………….1
1.2. 過去科學家對太陽差動自轉觀測研究之回顧……………….6
1.3. 我們的研究目的與方向……………………………………..15
第二章觀測資料……………………………………………….……16
第三章觀測資料的分析方法…………….…………………………20
3.1. 直接量測法(Direct Measurement)…….……………………20
3.2. 迴歸分析法(Correlation Analysis)……….….………………23
3.2.1. 多天資料的自迴歸分析法…………………………….23
3.2.2. 單天資料的自迴歸分析法………………………….…26
3.3. 各種分析方法之優劣比較………………………………....32
3.4. Least-Square Fitting(最小平方法擬合)………………….…34
第四章觀測資料的初步分析結果………………………………….36
第五章觀測資料之修正分析結果……………………………………45
5.1. 觀測資料校正方法…………………………………………..45
5.2. 觀測資料之修正分析結果…………………………………..47
第六章總結與討論……………………………………………………54
參考文獻………………………………………………………………56
iv參考文獻 Adams, W. M., and F. Tang, Differential rotation of short-lived filaments,
Solar Phys., 55, 499-504, 1977.
Antonucci, A., J. T. Hoeksema, and P. H. Scherrer, Rotation of the
photospheric magnetic fields: A north-south asymmetry, ApJ, 360,
296-304, 1990.
Birch, A. C., and A. G. Kosovichev, Latitudinal variation of solar
subsurface rotation inferred from p-mode frequency splitting
measured with SOI-MDI and GONG, ApJ, 503, L187-L190, 1998.
Duvall, T. L., Jr., The equatorial rotation rate of the supergranulation cells,
Solar Phys., 66, 213-221, 1980.
Howard, R., A possible variation of the solar rotation with the activity
cycle, ApJ, 210, L159-161, 1976.
Howard, R., P. A. Gilman, and P. I. Gilman, Rotation of the sun measured
from Mount Wilson white-light images, ApJ, 283, 373-384, 1984.
Javaraiah, J., 22-Year periodicity in the solar differential rotation, JApA,
21, 167-170, 2000.
Kosovichev, A. G., Schou, J., Scherrer, P. H., Bogart, R. S., Bush, R. I.,
Hoeksema, J. T., Aloise, J., Bacon, L., Burnette, A., de Forest, C.,
Giles, P. M., Leibrand, K., Nigam, R., Rubin, M., Scott, K., Williams,
S. D., and 18 coauthors, Structure and Rotation of the Solar Interior:
Initial Results from the MDI Medium-L Program, Solar Phys., 170,
43-61, 1997.
Leighton, R. B., A magneto-kinematic model of the solar cycle, ApJ, 156,
1-26, 1969.
Leighton, R. B., R. W. Noyes, and G. W. Simon, Velocity fields in the
solar atmosphere I preliminary report, ApJ, 135, 474-499, 1962.
Maunder, E. W., Distribution of sunspots in heliographic latitude
1874-1913, M.N.R.A.S., 74, 112, 1913.
Mathews J., and R. L. Walker, Mathematical Methods of Physics, 2nd ed.,
p. 113, Addision-Wesley Publishing Company, New York, 1970.
Newton, H. W., and M. L. Nunn, The sun’s rotation derived from
sunspots 1934-1944 and additional results, M.N.R.A.S., 111, 413,
1951.
Press, W. H., B. P. Flannery, S. A. Teukolsky, and W. T. Vetterling,
Numerical Recipes in FORTRAN, Cambridge University Press,
Cambridge, 1988.
Priest, E. R., Solar Magneto-hydrodynamics, D. Reidel Publishing
Company, Boston, 1984.
Snodgrass, H. B., Magnetic rotation of the solar photosphere, ApJ, 270,
288-299, 1983.
Snodgrass, H. B., and R. K. Ulrich, Rotation of Doppler features in the
solar photosphere, ApJ, 351, 309-316, 1990.
Tang, F., Rotation rate of high-latitude sunspots, Solar Phys., 69, 399-409,
1981.
Timothy, A. F., A. S. Krieger, and G. S. Vaiana, The structure and
evolution of coronal holes, Solar Phys., 42, 135-156, 1975.
Yallop, B. D., and C. Y. Hohenkerk, Distribution of sunspots 1874-1976,
Solar Phys., 68, 303-305, 1980.
Yoshimura, H., A model of the solar cycle driven by the dynamo action of
the global convection in the solar convection zone, ApJS Series No.
294, 29,467-494, 1975.
陳冠榮,利用p 模式震波與黑子的交互作用來研究p 模式震波的生命
期,碩士論文,國立清華大學,1995指導教授 呂凌霄(Ling-Hsiao Lyu) 審核日期 2004-12-14 推文 facebook plurk twitter funp google live udn HD myshare reddit netvibes friend youpush delicious baidu 網路書籤 Google bookmarks del.icio.us hemidemi myshare