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研究生: 李奕德
I-TE LEE
論文名稱: 颱風電離層都卜勒效應
Typhoon Ionospheric Doppler Effect
指導教授: 劉正彥
JANN-YENQ LIU
口試委員:
學位類別: 碩士
Master
系所名稱: 地球科學學院 - 太空科學研究所
Graduate Institute of Space Science
畢業學年度: 96
語文別: 中文
論文頁數: 50
中文關鍵詞: 都卜勒電離層颱風
外文關鍵詞: Doppler, typhoon, ionosphere
相關次數: 點閱:15下載:0
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    • 電離層除受太陽閃焰、磁暴、太陽活動影響外,亦會受到鋒面、雷暴雨和颱風等對流層劇烈天氣之影響而產生擾動。台灣自2005年建立一發射機與四接收站之高頻電離層都卜勒探測系統,以5.26MHz的探測頻率觀測觀測由颱風所造成移行電離層擾亂之都卜勒頻移變化。分析2005-2007年資料,發現於颱風期間大氣波動會引發移行電離層擾亂其都卜勒頻移範圍在0.5-1.5Hz而週期約為16分鐘之擾動現象是為「颱風電離層擾動」。藉由各接收站之時間差與來向角計算方法確認擾動來源與颱風有關,其傳播速度約在50-100 m/s。此外,在颱風登陸台灣本島於離開後的90-120分鐘內,都卜勒探測系統亦會偵測到一個明顯的「颱風登陸與出海之電離層擾動」訊號。其垂直傳播速度約為53.8 m/s,水平傳播速度約為30.7 m/s,週期為20分鐘。

    The ionosphere can be perturbed by sever weathers, such as front, thunderstorm, and typhoon (or hurricane). An HF CW Doppler sounding system which consists of 1 transmitter and 4 receiver with a probing frequency 5.26 MHz in Taiwan has been employed to observe variations in the ionospheric Doppler frequency shift (DFS) induced by typhoons since 2005. An analysis of data recorded during 2005-2007 shows that ionospheric DFS fluctuates with 0.5-1.5Hz amplitudes and 16 minute periods during the typhoon periods. An angle of arrival estimation has been applied to analyze time delays observed by the four receiving stations to confirm the waves being the typhoons related and examine the associated propagations. Meanwhile, it is found that when a typhoon landfalls or passes through the Taiwan Island, the ionosphere could be suddenly perturbed during the typhoon eye right on the boundary of land and sea. The vertical and horizontal speeds of the perturbation are about 54 m/s and 31m/s during the typhoon period, respectively.

    摘要 …………………………………………………………………I Abstract ………………………………………………………………II 誌謝 …………………………………………………………………III 目錄 …………………………………………………………………IV 圖目錄 ………………………………………………………………V 表目錄 ………………………………………………………………VI 第一章 緒論 ………………………………………………………01 1-1電離層 …………………………………………………01 1-2颱風 ……………………………………………………04 1-3重力波 …………………………………………………06 1-4電離層颱風擾亂 ………………………………………06 第二章 理論、觀測與分析 ………………………………………11 2-1電波觀測原理 …………………………………………11 2-2電離層探測儀 …………………………………………13 2-3電離層高頻都卜勒探測系統 …………………………16 2-4來向角計算和互相關分析 ……………………………21 第三章 電離層颱風效應 …………………………………………25 3-1觀測資料 ………………………………………………25 3-2颱風期間電離層都卜勒頻移 …………………………26 3-3颱風登陸與出海電離層擾動 …………………………35 第四章 結論與討論 ………………………………………………42 參考文獻 …………………………………………………49

    1. Baker D. M., K. Davies, F2 -region acoustic wave from severe weather, J Atmos. Terr. Phys., 31, p.1345-1352, 1969.
    2. Davies K., Ionospheric Radio, Peter Peregrinus, London, 1990.
    3. Davies K., J. E. Jones, Ionospheric disturbances in the F2 region associated with severe thunderstorms, J. Atoms. Sci., 28, p.254-262, 1971.
    4. Dhaka S. K., M. Takahashi, Y. Shibagaki, M. D. Yamanaka, S. Fukao, Gravity wave generation in the lower stratosphere due to passage of the typhoon 9426 (Orchid) observed by the MU radar at Shigaraki (34.85°N, 136.10°E), J. Geophys. Res., 108, p.4595, 2003.
    5. Knapp C. H., G. C. Carter, The generalized correlation method for estimation of time delay, IEEE Trans. on Acoustics, Speech, Signal Processing, vol. ASSP-24, No. 4, p.320-327, 1976.
    6. Kelly M. C., The Earth Ionosphere, Plasma Physics and Electrodynamics, Academic Press, San Diego, California, 1989.
    7. Huang Y. N., K. Cheng, S. W. Chen, On the detection of acoustic-gravity waves generated by typhoon by use real time HF Doppler frequency shift sounding system, Radio Sci., 4, p.897-906, 1985.
    8. Holton J. R., An introduction to Dynamic Meteorology, Elsevier Academic press, Burlington, MA, 2004.
    9. Liu, J. Y., Y. B. Tsai, K. F. Ma, Y. I. Chen, H. F. Tsai, C. H. Lin, M. Kamogawa, and C. P. Lee, Ionospheric GPS total electron content (TEC) disturbances triggered by The 26 December 2004 Indian Ocean Tsunami, J. Geophys. Res., 111, A05303, 2006.
    10. Liu Y. M., J. S. Wang, Z. Xiao, Y. C. Suo, A possible mechanism of typhoon effects on the ionospheric F2 layer, Chin. J. Space Sci., 26, p.92-97, 2006.
    11. Prasad S. S., L. J. Schneck, K. Davies, Ionospheric disturbances by severe troposheric weather storms, J. Atoms. Terr. Phys., 40, p.831-843 ,1978.
    12. Xiao S., D. Zhang, Z. Xiao, Study on the detectability of typhoon-generated acoustic-gravity waves, Chin. J. Space Sci., 27, p.35-40, 2007.
    13. Xiao Z., S. G. Xiao, Y. Q. Hao, D. H. Zhang., Morphological features of ionospheric response to typhoon, J. Geophys. Res., 112, A04304, 2007.
    14. Yil-Hietanen J., K. Kalliojärvi, J. Astola, Robust Time-Delay based angle of arrival estimation, Proc. 1996 IEEE Nordic Signal Processing Symposium, p.219-222, 1996.
    15. Yil-Hietanen J., K. Kalliojärvi, J. Astola, Time-Delay selection for robust angle of arrival estimation, Proc. IASTED International Conference Signal and Image Processing (SIP’99), Nassau, Bahamas, 1999.
    16. 陳耀淳, 「地震電離層都卜勒效應」, 國立中央大學, 碩士論文, 2007。
    17. 颱風路徑:Unisys Weather http://weather.unisys.com/
    18. 颱風警報:中央氣象局颱風資料庫http://rdc28.cwb.gov.tw/。

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