共查询到20条相似文献,搜索用时 109 毫秒
1.
本文发表继探测到恒星形成区的10个新H2O脉泽后,再发现和证认的7个银河系星际H2O脉泽及其有关参量和谱线图,这些新H2O脉泽是与CO分子外流源AFGL5142,HH-3,AFGL5157,NGC2023,RNO73,20126+1+4104,L1251-A成协的。它们与相应的外向流的中心IRAS点源间的平均位置差为|Δα|=24''8,|Δδ|=27''。 相似文献
2.
本文发表继探测到恒星形成区的10个新H2O脉泽[1]后,再发现和证认的7个银河系星际H2O脉泽及其有关参量和谱线图。这些新H2O脉泽是与CO分子外流源[2-5]AFGL5142,HH-3,AFOL5157,NGC2023,RNO73,20126+4104,L1251-A成协的。它们与相应的外向流的中心IRAS点源间的平均位置差为|△α|=24''.8,|△δ|=27''。 相似文献
3.
本文给出了39个不同类型的恒星脉泽源的近红外测光结果。以所获得的J、H、K波段流量密度,结合IRAS分光测量数据及低分辨光谱指数等资料,得出了各类源在不同波段的双色图上的分布特点。计算了光谱斜率和红外光度,同时从红外及射电幅射得出了中心星质量损失率及质量损失历经时间。并对不同源的各类参数进行了比较分析。结果表明随着在AGB上的演化,中心星质量损失率不断增加,脉泽源的红外特性和包层结构呈系统变化,进一步说明了从SiO和H2O脉泽,经Ⅰ型OH/IR脉泽,到Ⅱ型OH/IR脉泽,是相互关联的有序演化系列。 相似文献
4.
用射电天文联合实验室紫金山天文台青海站13.7米望远镜,于1997年4月对97个水脉泽源做了CO(J=1-0)的巡测及部分成图观测,结果表明81个源的谱线适于作成协星体活动分析.经初步证认有外向流候选者33个,全部为首次给出高速范围.对其轮廓特点及与H2O脉泽辐射的关系作了简要讨论.CO高速气体和H2O脉泽的速度范围和峰值速度在多数情况下分别相符,这说明两者的激发可能相关. 相似文献
5.
用多重分离的旋转膨胀环模型,分析了旋涡星系M33的HII区复合体IC133中的14个H2O脉泽源斑的VLB相对位置图,发现这14个H2O脉泽源斑在HII区复合体盘上成形状,分布在二个不同的旋转膨胀盘环上,同时,也得到这14个H2O脉泽源 运动学特性。 相似文献
6.
通过对W3(OH)区域22GHzH2O脉泽源的短时间跟踪观测,探测到速度为-52 .8Km/s子谱的流量密度呈线性下降趋势,变化时村约为19天。同时也观测到了整个脉泽源的谱线宽度与该子谱的强度之间的相关变化。这些现象可能是由脉泽云之间的相互碰撞导致脉泽抽运率的变化所引起的。 相似文献
7.
本文给出35个不同类型含SiO(v=1,J=1-0)脉泽发射的AGB星的近红外观测结果(其中包括6个Ⅰ型OH星,13个Ⅱ型OH星,9个仅有SiO脉泽的星以及7个无OH脉泽但有SiO和H2O脉泽的星).得出了它们的JHK星等和流量.同时经认证找出了它们对应的IRAS观测数据.通过对它们的近红外、中远红外以及OH射电资料的同时分析,得出了不同类型SiO脉泽星的色指数、谱斜率以及在近红外波段上拟合的等效黑体温度Teq.由红外及OH射电资料导出了其中心星的质量损失率M,并在此基础上结合已知的SiO脉泽源资料,找出了不同类型SiO脉泽星各量之间的关系.计算结果表明,SiO脉泽具有普遍性,在各类脉泽星中都可出现.SiO脉泽的光度与质量损失率弱相关,并且从(Mira)SiO到(OH/IR)SiO逐渐增加.SiO脉泽的流量与近红外“色”以及等效黑体温度Teq的关系较为密切.SiO脉泽积分流量的上限与IRAS在12μm和25μm上流量分别都相关.本文对SiO脉泽在AGB演化中的地位和特殊性进行了简单讨论. 相似文献
8.
我们从对Orion-KL星云中OH1665MHz脉泽的单基线干涉观测的分析中,提出一种新的外流模型,即多重分离的旋转膨胀环。这种模型与观测结果是一致的。通过对24km单基线观测得到的19个OH1665MHz脉泽斑点的相对位置图进行分析、统计、拟合和计算,得到这19个OH1665MHz脉泽斑点分析分布在三个旋转膨胀环上。这个旋转膨胀环的视距分别为3".85,5".87,6".0;对应的环半径分别为1 相似文献
9.
介绍了近年来河外H2O超脉泽的主要观测结果。H2O超脉泽通常起源于活动星系核中央的拱核盘。它们主要寄生在 Serfert 2星系或低电离核区。至今为止,已有20个星系探测到H2O超脉泽。脉泽辐射的各向同性光度为10~6000L⊙。所有超脉泽星系显示出核的活动,显然,脉泽是由核活动所产生的射电和X射线光子或激波来抽运的。H2O超脉泽倾向存在于高倾斜度的星系,这使得沿视线上的分子柱密度增高,产生足够大的放大光深。最有可能产生H2O超脉泽辐射的星系应有一个包含着射电源的侧向的分子盘以及一个适当的抽运机制。 相似文献
10.
星际水脉泽源中高速气体的CO巡测 总被引:1,自引:1,他引:0
用射电天联合实验紫金山天台青海站13.7米望远镜,于1997年4月对97个水脉泽源做了CO(J=1-0)的巡测及部分成图观测。结果表明81个源的谱线适于作成协星体活动分析。经初步认证认有外向流候选33个,全部为首次给出高速范围,对其轮廓特点及与H2O脉泽辐射的关系作了简要讨论,CO高速气体和H2O脉泽的速度范围和峰值速度在多数情况下的分别相符,这说明两的激发可能相关。 相似文献
11.
In an extension of previously reported work on ices containing H2O, CO, CO2, SO2, H2S, and H2, we present measurements of the physical and infrared spectral properties of ices containing CH3OH and NH3. The condensation and sublimation behavior of these ice systems is discussed and surface binding energies are presented for all of these molecules. The surface binding energies can be used to calculate the residence times of the molecules on grain surfaces as a function of temperature. It is demonstrated that many of the molecules used to generate radio maps of and probe conditions in dense clouds, for example CO and NH3, will be significantly depleted from the gas phase by condensation onto dust grains. Attempts to derive total column densities solely from radio maps that do not take condensation effects into account may vastly underestimate the true column densities of any given species. Simple CO condensation onto and vaporization off of grains appears to be capable of explaining the observed depletion of gas phase CO in cold, dense molecular cores. This is not the case for NH3, however, where thermal considerations alone predict that all of the NH3 should be condensed onto grains. The fact that some gas phase NH3 is observed indicates that additional desorption processes must be involved. The surface binding energies of CH3OH, in conjunction with this molecule's observed behavior during warm up in H2O-rich ices, is shown to provide an explanation of the large excess of CH3OH seen in many warm, dense molecular cores. The near-infrared spectrum and associated integrated band strengths of CH3OH-containing ice are given, as are middle infrared absorption band strengths for both CH3OH and NH3. 相似文献
12.
High spatial resolution observations (approximately 5") were made for the 3 mm transitions of methanol (CH3OH), methyl formate (HCOOCH3), and dimethyl ether [(CH3)2O] toward Orion-KL using the Nobeyama Millimeter Array. The 15(3)-14(4) A- CH3OH emission appears to be elongated along the line connecting IRc2 and "the southern condensation (SC)", which may suggest a relation between methanol and the outflow from IRc2. The HCOOCH3 (7(1,6)-6(1,5)) and (CH3)2O (15(2,13)-15(1,14)) emissions appear to be well concentrated toward SC with an angular size of approximately 6".5 (at the 2 sigma level). There also exists another oxygen-rich condensation to the west of IRc2 (angular size approximately 4".5) having column densities of HCOOCH3 and (CH3)2O comparable to those of SC. We derive the total column densities 6.8 x 10(16) cm-2, 1.4 x 10(16) cm-2 and 2.7 x 10(16) cm-2 for CH3OH, HCOOCH3, and (CH3)2O, respectively, at the core of SC. 相似文献
13.
Astrophysics - Aminomethanol (NH2CH2OH) and N-Methylhydroxylamine (CH3NHOH) are isomers of each other, and have astrochemical importance. To our knowledge, they have not been analyzed so far in any... 相似文献
14.
We have observed emission from HCN, H13CN, HC15N, HN13C, H15NC, HC3N, CH3CN, and possibly CH3NC, and determined an upper limit for NH2CN, toward the cold, dark cloud TMC-1. The abundance ratio [HNC]/[HCN] = 1.55 +/- 0.16 is at least a factor approximately 4 and approximately 100 greater than that observed toward the giant molecular clouds DR 21(OH) and Orion KL, respectively. In contrast, for the corresponding methylated isomers we obtain [CH3NC]/CH3CN] < or approximately 0.1. We also find [NH2CN]/[CH3CN] < or approximately 0.1 and [HC3N]/[CH3CN] = 30 +/- 10. We find no evidence for anomalous hyperfine ratios for H13CN, indicating that the ratios for HCN (cf. recent work of Walmsley et al.) are the result of self-absorption by cold foreground gas. 相似文献
15.
A critical analysis of CH, NH, OH, C2, and CN molecules/radicals has been made in twenty-four F- and early G-type dwarfs at different effective temperature as well as in new constructed model atmosphere. Molecular indices of bandheads ofA-X system of CH, NH, OH, C2, and CN have been obtained by using the data available in the literature (thirteen-colour and eight-colour photometry).Besides, some interesting plots of the molecular indices vs eff, molecular abundances and molecular indices vs dissociation energy, reduced equivalent widths and FCF's vs dissociation energy for respective molecules have also been enumerated. It is found that the molecular indices at bandheads ofA-X system of CH, NH, OH, C2, and CN are approximately constant (5810–6570 K). It is to be noted that the molecular indices decrease in the order OH, NH, CH, C2, and CN at a given temperature.The dissociation equilibrium of CH, NH, OH, C2, and CN is considered at 5810, 6570, and 7160 K phases in model atmosphere. At standard scale of abundance the molecular abundance and molecular index decrease in the order OH, NH, CH, C2, and CN at any given phase, however, CN abundance and index increase (eff=0.867-0.767). The amplitude of abundance and index variation decrease in the order NH, OH, CH, C2, and CN (eff=0.767-0.704).The reduced equivalent width decrease in the order OH, NH, CH, and C2 and FCF's decrease in the order CH, OH, NH, CN, and C2.The confrontation of models and observations of spectra of F- and early G-type dwarfs of parent molecules is of primary importance to investigate the physical conditions within atmospheres. Reliable excitation models are also requisite for interpreting spectroscopic observations of parent molecules and deriving molecular abundances. 相似文献
16.
A Nummelin J E Dickens P Bergman A Hjalmarson W M Irvine M Ikeda M Ohishi 《Astronomy and Astrophysics》1998,337(1):275-286
We have searched for millimetre-wave line emission from ethylene oxide (c-C2H4O) and its structural isomer acetaldehyde (CH3CHO) in 11 molecular clouds using SEST. Ethylene oxide and acetaldehyde were detected through multiple lines in the hot cores NGC 6334F, G327.3-0.6, G31.41+0.31, and G34.3+0.2. Acetaldehyde was also detected towards G10.47+0.03, G322.2+0.6, and Orion 3'N, and one ethylene oxide line was tentatively detected in G10.47+0.03. Column densities and rotational excitation temperatures were derived using a procedure which fits the observed line intensifies by finding the minimum chi 2-value. The resulting rotational excitation temperatures of ethylene oxide and acetaldehyde are in the range 16-38 K, indicating that these species are excited in the outer, cooler parts of the hot cores or that the excitation is significantly subthermal. For an assumed source size of 20", the deduced column densities are (0.6-1)x10(14) cm-2 for ethylene oxide and (2-5)x10(14) cm-2 for acetaldehyde. The fractional abundances with respect to H2 are X[c-C2H4O]=(2-6)xl0(-10), and X[CH3CHO]=(0.8-3)x10(-9). The ratio X[CH3CHO]/X[c-C2H4O] varies between 2.6 (NGC 6334F) and 8.5 (G327.3-0.6). We also detected and analysed multiple transitions of CH3OH, CH3OCH3, C2H5OH, and HCOOH. The chemical, and possibly evolutionary, states of NGC 6334F, G327.3-0.6, G31.41+0.31, and G34.3+0.2 seem to be very similar. 相似文献
17.
A set of samples of 13 massive star-forming cores were observed in SiO (2-1), CH3OH (2-1) and C34S (2-1) thermal lines. Nine of these cores were detected in all three lines. Among the nine SiO detections, three were new detections, and relatively faint. Most of the lines have wide wings, which might be interpreted as the evidence of ongoing energetic out?ows in the cores. The line widths of SiO are generally the broadest, which might further suggest that the SiO emissions are due to higher velocity out?ow, and closer to the excited source. We derive the rotational temperatures, column densities and chemical relative abundances of the cores. There is a strong correlation between SiO and CH3OH abundances, with correlation coeffcient R = 0.77, but no correlation is observed between SiO and C34S. 相似文献
18.
One-dimensional radial models of the chemistry in cometary comae have been constructed for heliocentric distances ranging from 2 to 0.125 AU. The coma's opacity to solar radiation is included and photolytic reaction rates are calculated. A parent volatile mixture similar to that found in interstellar molecular clouds is assumed. Profiles through the coma of number density and column density are presented for H2O, OH, O, CN, C2, C3, CH, and NH2. Whole-coma abundances are presented for NH2, CH, C2, C3, CN, OH, CO+, H2O+, CH+, N2+, and CO2+. 相似文献
19.
We present gas-phase abundances of species found in the organic-rich hot core G327.3-0.6. The data were taken with the Swedish-ESO Submillimetre Telescope (SEST). The 1-3 mm spectrum of this source is dominated by emission features of nitrile species and saturated organics, with abundances greater than those found in many other hot cores, including Sgr B2 and OMC-1. Population diagram analysis indicates that many species (CH3CN, C2H3CN, C2H5CN, CH3OH, etc.) have hot components that originate in a compact (~2") region. Gas-phase chemical models cannot reproduce the high abundances of these molecules found in hot cores, and we suggest that they originate from processing and evaporation of icy grain mantle material. In addition, we report the first detection of vibrationally excited ethyl cyanide and the first detection of methyl mercaptan (CH3SH) outside the Galactic center. 相似文献
20.
Schilke P Groesbeck TD Blake GA Phillips TG 《The Astrophysical journal. Supplement series》1997,108(1):301-337
We present a high-sensitivity spectral line survey of the high-mass star-forming region Orion KL in the 325-360 GHz frequency band. The survey was conducted at the Caltech Submillimeter Observatory on Mauna Kea, Hawaii. The sensitivity achieved is typically 0.1-0.5 K and is limited mostly by the sideband separation method utilized. We find 717 resolvable features consisting of 1004 lines, among which 60 are unidentified. The identified lines are due to 34 species and various isotopomers. Most of the unidentified lines are weak, and many of them most likely due to isotopomers or vibrationally or torsionally excited states of known species with unknown line frequencies, but a few reach the 2-5 K level. No new species have been identified, but we were able to strengthen evidence for the identification of ethanol in Orion and found the first nitrogen sulfide line in this source. The molecule dominating the integrated line emission is S02, which emits twice the intensity of CO, followed by SO, which is only slightly stronger than CO. In contrast, the largest number of lines is emitted from heavy organic rotors like HCOOCH3, CH3CH2CN, and CH3OCH3, but their contribution to the total flux is unimportant. CH3OH is also very prominent, both in the number of lines and in integrated flux. An interesting detail of this survey is the first detection of vibrationally excited HCN in the v2 = 2 state, 2000 K above ground. Clearly this is a glimpse into the very inner part of the Orion hot core. 相似文献