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研究生: 黃慧春
Huang, Hui-Chun
論文名稱: 低質量原恆星盤IRAS 16293-2422之溫度及含氘分子研究
A Study of the Temperature Profile and Deuterated Molecules in the Low-Mass Protostellar Sources IRAS 16293-2422
指導教授: 管一政
Kuan, Yi-Jehng
學位類別: 博士
Doctor
系所名稱: 地球科學系
Department of Earth Sciences
論文出版年: 2009
畢業學年度: 97
語文別: 英文
論文頁數: 106
中文關鍵詞: 低質量原恆星盤含氘分子動能溫度恆星形成
英文關鍵詞: low-mass protostellar disk, deuterated molecule, kinetic temperature, star formation
論文種類: 學術論文
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  • 我們使用SMA干涉儀陣列觀測到低質量年輕天體IRAS 16293-2422之CH3CN分子,並得知其原雙天體中I16293A之兩種速度分佈組成(1.1 km/s和5.2 km/s)。而另一天體I16293B因訊號較弱而無法量得較可信之動能溫度。天體I16293A所得到之藍移和紅移速度組成之動能溫度分別為165 K和711 K,而單一速度組成所對應之溫度為274 K。加上由CH3OH分子及HCOOCH3分子得到之轉動激發溫度分別為Trot > 250 K和Trot > 150 K,以及在此天體上觀測到之豐富有機分子,皆強烈支持此一接近重質量恆星形成區熱分子雲核之低質量熱核〝corinos〞的存在。我們並首次於此低質量天體I16293偵測到七種含氘分子的空間分佈。除CH3OD/CH3OH之分子比例為0.01 (I16293A)之外,其他分子所得之比例,如DCN /HCN (I16293A 為0.05)、D2CO/H2CO (I16293A為0.49; I16293B為1.04)、HDCS/H2CS (I16293A為0.014; I16293B為0.06)以及CH2CDCN/CH2CHCN (I16293A為0.07; I16293B為0.34),多高於之前單一天線所得到之比值,此一結果暗示含氘分子的分佈較其氫飽和分子之分佈為密集。我們在此低質量原恆星核所得之含氘分子的高比值,與近來我們於長週期彗星C/2002 T7所得之HDCO/H2CO的高比值(~0.8)觀測結果一致。此結果強烈暗示星際中之重氫分子與低質量天體演化路徑接近之原太陽星雲有關聯。

    The solar-type source IRAS 16293-2422 were observed with methyl cyanide, and two velocity components C-v 1.1 and rv5.2 km S-l) were recognized in 116293A. The poor S/N ratios in 116293B make the temperature measurements unreliable. For 116293A, the kinetic temperatures are 165 K and 711 K for the blue and red velocity components, and 274 K for the combined single-component. Together with the high
    rotational excitation temperatures inferred from CH30H (T叫> 250 K) and HCOOCH3 (T叫> 150 K) , and the rich organic inventory observed in 116293, the existence of low-mass hot cores "corinos鬥similar to the HMCs in massive star-forming regions is strongly supported. The spectral emission of 7 deuterated molecular species in 116293 is successfully imaged the first time. Except the CH30D/CH30H ratio (rvO.01 for 116293A), other fractionation ratios we derived, s叫1 as DCN /HCN (rvO.05 for 116293A), D2CO /H2CO (rv0.49 for 116293人 rv l.04 for 116293B), HDCS/H2CS (rvO.014 for 116293A, rvO.06 for 116293B) and CH2CDCN/CH2CHCN (rvO.07 for 116293人rvO.34 for 116293B), are mostly higher than those obtained from single-dish measurements implying the distribution of these deuterated species are spatially more compact than their corresponding abundant species. The extreme fractionation ratios found in solar-type protostellar cores are in good agreement with our recent finding ofhigh [HDCO]/[H2CO] ratio (rvO.8) in the long-period comet C/2002 T7. This s時gests strongly that interstellar deuteration may have a strong connection
    to our presolar nebula, which may have gone through evolutionary stages similar to that of low-mass stellar objects!

    N omenclature vii 1 Introduction 1 1.1 Solar-Type Low-Mass Star Formation . . . . . . . . . . . . . . .. 2 1.2 IRAS 16293-2422: an Active Class 0 Protobinary with Ongoing Accretion ............................... 3 1.3 IRAS 16293-2422: Rich Organic Inventory and Hot Corinos. . .. 4 1.4 Kinetic Temperatures: are the Two Corinos Hot Enough? . . . .. 6 1.5 Deuteration in Solar-Type Protostellar Cores . . . . . . . . . . .. 9 2 Observations and Data Reduction 12 2.1 226-GHz Observations with the SMA . . . . . . . . . . . . . . .. 12 2.2 230-j690-GHz Dual-Band Observations with the SMA. . . . . .. 14 2.3 340-GHz Observations with the SMA . . . . . . . . . . . . . . .. 15 3 How Hot is the Molecular Gas in the IRAS 16293-2422 Corinos? 18 3.1 Methyl Cyanide: an Ideal Thermometer .............. 18 3.2 Methyl Cyanide in IRAS 16293-2422: Images and Spectra .... 21 3.2.1 Submillimeter Continuum Emission . . . . . . . . . . . .. 21 3.2.2 CH3CN J = 18-17 K-Ladders ............... 21 3.3 Kinetic Temperature and Column Density . . . . . . . . . . . .. 28 3.3.1 Rotation-Diagram Analysis ................. 28 3.3.2 Population-Diagram Analysis . . . . . . . . . . . . . . .. 31 3.4 Discussions .............................. 35 3.4.1 How hot for I16293A? .................... 35 3.4.2 RD and PD .................... ........... 36 3.4.3 Kinetic structure of 116293 .................36 4 Deuteration in Solar-Type Protostellar Core 38 4.1 Early Studies of Deuterated Molecular Species toward IRAS 16293-2422 . . . . . . . . . . . . . . . .. 38 4.2 Detections of Deuterated Molecules 40 4.2.1 HDO. 42 4.2.2 DCN, DCO+ and N2D+ 43 4.2.3 H2CO and D2CO 43 4.2.4 CH30H and CH30D 44 4.2.5 H2CS and HDCS 45 4.2.6 CH2CHCN and CH2CDCN 45 4.3 Column Density Calculations 58 4.4 Discussions 59 4.4.1 Fractionation Ratios of Deuterated Molecules 59 4.4. 1.1 HDO, DCN, DCO+ and N2D+ 59 4.4. 1.2 D2CO, CH30D, HDCS and CH2CDCN 63 4.4.2 When/wl間'e does deuterium form? 64 5 Summary and Conclusions 65 5.1 Kinetic Temperatures of the Two Corinos 66 5.2 Deuteration in Solar-Type Protostellar Sources 67 5.3 Conclusions 68 A Large organic molecules: CH30H and HCOOCH3 70 A.1 Molecules detected toward 116293 70 A.2 Results 71 A.2.1 CH30H 71 A.2.2 HCOOCH3 74 Reference 96
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