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1.
利用青海站13.7 m毫米波望远镜对17个与星团成协的恒星形成区进行了~(12)CO(J=1-0)、~(13)CO(J=1-0)和C~(18)O(J=1-0)的同时成图观测.除了IRAS04547+4753,这些源均探测到较强的C~(18)O(J=1-0)的谱线发射.由于分子云的大小不同,有13个源观测到~(13)CO(J=1-0)谱线积分强度极大值的一半处,其他源因分子云延展范围较大,没有进行大面积的成图观测.基于观测数据,计算了各云核的谱线线宽、亮温度、尺度、密度和质量等,~(13)CO和C~(13)O云核的维里质量与局部热动平衡(LTE)质量之比分别为0.66和0.74,它们接近于维里平衡状态.为了从形态方面比较云核与星团,将谱线的积分强度图与2MASS的K波段图像叠加.同时,计算了与云核成协的星团的大小和质量,数据采用了2MASS的近红外点源测光结果.基于云核与星团的质量结果,计算了分子云的恒星形成效率,大致在10%~30%的范围. 相似文献
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利用紫金山天文台青海观测站13.7 m毫米波望远镜对IRAS 23133 6050云核进行~(13)CO、C~(18)O、HCO (J=1-0)谱线观测.~(13)CO、C~(18)O、HCO 分子谱线辐射所对应的云核直径分别为4.0pc、2.1 pc、2.3 pc,质量分别为2.7×10~3M_⊙、0.9×10~3M_⊙、2.3×10~3M_⊙,气体平均密度分别为2.7×10~3 cm~(-3)、5.1×10~3 cm~(-3)、4.6×10~3cm~(-3).用幂律模型n(r)~~(-P)的形式分析了云核的密度分布,得到的指数p分别为1.75、1.56、1.48.分析发现,密度结构谱指数从云核的外部向内部逐渐变平坦.观测得到HCO~ 丰度为4.6×10~(-10),比暗云低一个数量级以上,比巨分子云也略低,而~(13)CO、C~(18)O的相对丰度比X_(13/18)为12.2,这与暗云11.8和巨分子云9.0~15.6的情况一致.该区域发现存在~(13)CO双极外流.由IRAS远红外光度和维里质量得到的光度质量比,分别为18.1,51.1、21.2. 相似文献
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利用中国科学院紫金山天文台德令哈观测站13.7米望远镜在IRAS 02232 6138方向进行了13CO,C18O,HCO 和N2H 的观测.随着探针分子的激发密度从13CO到N2H 逐渐增加, IRAS02232 6138云核的尺度从13CO的2.40 pc减小到N2H 的0.54pc,云核的维里质量从13CO的2.2×103M⊙减小到N2H 的5.1×102M⊙.研究发现,该方向区域内存在双极分子外流.对云核的空间密度结构用幂函数n(r)αr-α的形式进行拟合分析,得到α=2.3-1.2;随着探测密度的增加,该指数逐渐变平.分析得到, 13CO/C18O分子丰度比值为12.4±6.9,与暗云的11.8±5.9及大质量核的9.0-15.6值一致;N2H 丰度是3.5±2.5×10-10,与暗云核的1.0-5.0×10-10和大质量核的1.2-12.8×10-10值一致;HCO 丰度为0.9±0.5×10-9,接近大质量核的1.6-2.4×10-9值,没有发现HCO 丰度增长.结合IRAS数据,得到云核的光度质量比范围为37-163(L/M)⊙,由IRAS光度估计, IRAS 02232 6138方向云核内嵌埋的大约是一颗主序O7.5星. 相似文献
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若干恒星形成区的^12CO(J=1—0)与^13CO(J=1—0)观测 总被引:1,自引:0,他引:1
首次利用紫金山天文台青海观测站13.7m毫米波射电望远镜对若干分子云与恒星形成区的~(12)CO(J=1—0)和~(13)CO(J=1—0)分子辐射进行了观测,得到了各自中心位置的谱线轮廓。作为一个实例本文将介绍如何通过对分子云~(12)CO(J=1—0)和~(13)CO(J=1—0)谱线的综合分析与计算得到云中的物理参数。 相似文献
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利用紫金山天文台青海站的13.7m毫米波望远镜,对NGC1333/IRAS6-9附近的一个10.3'X10'和6.8'X8'的恒星形成区,进行了13CO(1-0)和C18O(1-0)的成图观测,发现了多个新的分子云核和沿SSV12-IRASS方向的13CO(1-O)双极外向流.本文给出了每个云核的观测特性和物理参数.分析了这一区域的云核分布和速度场结构.详细讨论了该区域的云核分布、双极外向流和群集的年轻天体、红外源以及HH天体的关系. 相似文献
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《天文学报》2013,(4)
通过对恒星形成区AFGL 5157进行了24′×24′(12 pc×12 pc)的成图观测,得到了该分子云的~(13)CO(J=1-0)和C~(18)O(J=1-0)云核各自的分布结构和平均物理参数.在云核的边缘位置,同位素丰度比X[(~(13)CO)/(C~(18)O)]约为10,接近于巨分子云的比值.~(13)CO和C~(18)O云核的维里质量小于云核质量,具有引力不稳定性,且C~(18)O云核更易塌缩.C~(18)O分子云核的东北方向和西南方向的分子云柱密度分布分别为1.1×10~(23)×z~(-0.43)和4.6×10~(25)×z~(-0.58),z表示到云核中心的距离.由~(12)CO(J=1-0)高速线翼成份的测量,估计了外流源的质量损失率,求得外向流的质量和速度的关系近似为m∝v~(-1.8).~(13)CO分子云核的恒星形成率为23%,该区域可能受反射星云NGC 1985的触发而正在形成中大质量恒星或者星团. 相似文献
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对MSX红外暗云G79.2+0.38的11'×7'的区域范围进行了12CO(1-0)、13CO(1-0)和C18O(1-0)谱线的同时观测.观测到的两个C18O(1-0)谱线所界定的云核峰值分布分别对应MSX A波段的两块高消光区域.该区域的氢分子柱密度N(H2)-(5-12)×1022 cm-2,平均密度n-(3±1)×104cm-3.两块分子云核的13CO的线尺度分别是1.7和1.2 pc,而C18O的线尺度分别是1.2和0.6 pc,它们包含的质量为2×102-2×103M(?).分子云核的视向平均密度结构可用幂函数(?)(p)-p-0.34±0.02表征. 13CO和C18O的丰度和典型的光学暗云相比低了4至11倍,但是目前还没有证据表明13CO和C18O的相对丰度比X13/18随柱密度有显著变化. 相似文献
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恒星形成于分子云之中, 分子外向流是恒星形成正在进行的重要动力学特征, 也是研究和认识恒星形成的重要契入点. 利用紫金山天文台青海观测站德令哈13.7m毫米波望远镜, 采用5种分子谱线探针(包括12CO、13CO、C18O、HCO$^+$ $J=1-0$和CS $J=2-1$, J为角动量量子数), 对一个包含IRAS 19230+1506、IRAS 19232+1504和G050.3179--00.4186这3个源的大质量恒星形成复合体进行了成图观测研究. 通过对以上分子谱线数据并结合红外波段巡天数据的分析, 在这3个源中首次探测到了分子外向流活动, 并确定了分子外向流的中心驱动源. 最后对这3个源进行了分子外向流相关物理量参数的计算, 分析了这些物理量参数之间的关系, 结果表明分子外向流的性质与中心驱动源的性质息息相关. 相似文献
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With the 13.7 m millimeter wave telescope of Purple Mountain Observatory at Qinghai Station, the simultaneous mapping observations at the 12CO(J=1-0), 13CO(J=1-0) and C18O(J=1-0) lines were performed towards the 24 Galactic high-mass star-forming cores, which are associated with water masers and have available Spitzer's infrared data. The average mapping range was 8′ × 8′. The C18O line emission was detected in all the cores, in which 11 cores were observed to the half maximum of their C18O integrated intensities and the rather extended (5′ − 8′) C18O maps were obtained, while the others were failed to make such a large scale mapping because of the low SNR or the intrinsically extended morphology of the cores. On the 11 completely mapped dense cores, we analyzed their characteristics and made the statistics and comparisons on the integrated intensity ratios between 12CO and 13CO (R12/13), 13CO and C18O(R13/18), as well as 12CO and C18O(R12/18). We concluded that as a tracer of dense gas, C18O is absolutely optically thin and can be used to detect the detailed structures of the cores, and that in general the 3 ratios increase gradually from the core center to the periphery. We found that the integrated intensity ratio R12/13 ranges from 2 to 6; R13/18 fluctuates between 4 and 20, but in central regions it is concentrated in the range 6–12 with a small fluctuation; and R12/18 occupies a wider range 13–90, but it is concentrated between 13 and 50 in the denser regions of the cores. 相似文献
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D. Reynaud 《Astrophysics and Space Science》2001,276(2-4):619-624
Bars probably have a great importance in galactic evolution. The barred potential is able to concentrate large quantities
of interstellar gas in the vicinity of the nucleus, feeding any nuclear activity, be it central starbursts or black hole accretion
discs. The IRAM millimeter interferometer and 30 m telescope have allowed a precise analysis of the molecular gas in the bar
and the nucleus of a typical barred spiral galaxy, NGC 1530. In this galaxy, I have detected CO(1→0) along two lanes that
trace shocks in the molecular gas. In these lanes, the gas moves toward the centre of the galaxy, with typical in fall velocities
of 100 km s-1. I have shown in these shocks an anticorrelation between shear in the gas and star formation efficiency by comparing Hα and CO maps. I have also studied the centre of this galaxy at higher resolution in12CO(1→0), 12CO(2→1),13CO(1→0) and HCN(1→0). In the central region, the gas distribution is a ring or an unresolved spiral, surrounded by two curved
arcs. The nuclear ring contains large amounts of dense gas traced by HCN and 13CO, and shows intense star formation, as indicated by the non-thermal centimetre continuum. The arcs, in contrast, are poor
in dense gas and form few stars.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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The photoabsorption coefficients of CO and CO2 have been measured to ± 3% accuracy in the 350–650 Å spectral region. 相似文献
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Chuan Peng Zhang Jarken Esimbek Jian Jun Zhou Gang Wu Zhi Mao Du 《Astrophysics and Space Science》2012,337(1):283-302
There are relatively few H2CO mappings of large-area giant molecular cloud (GMCs). H2CO absorption lines are good tracers for low-temperature molecular clouds towards star formation regions. Thus, the aim of
the study was to identify H2CO distributions in ambient molecular clouds. We investigated morphologic relations among 6-cm continuum brightness temperature
(CBT) data and H2CO (111−110; Nanshan 25-m radio telescope), 12CO (1–0; 1.2-m CfA telescope) and midcourse space experiment (MSX) data, and considered the impact of background components
on foreground clouds. We report simultaneous 6-cm H2CO absorption lines and H110α radio recombination line observations and give several large-area mappings at 4.8 GHz toward W49 (50′×50′), W3 (70′×90′),
DR21/W75 (60′×90′) and NGC2024/NGC2023 (50′×100′) GMCs. By superimposing H2CO and 12CO contours onto the MSX color map, we can compare correlations. The resolution for H2CO, 12CO and MSX data was ∼10′, ∼8′ and ∼18.3″, respectively. Comparison of H2CO and 12CO contours, 8.28-μm MSX colorscale and CBT data revealed great morphological correlation in the large area, although there
are some discrepancies between 12CO and H2CO peaks in small areas. The NGC2024/NGC2023 GMC is a large area of HII regions with a high CBT, but a H2CO cloud to the north is possible against the cosmic microwave background. A statistical diagram shows that 85.21% of H2CO absorption lines are distributed in the intensity range from −1.0 to 0 Jy and the ΔV range from 1.206 to 5 km s−1. 相似文献
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Microwave spectra of carbon monoxide (12CO) in the mesosphere of Venus were measured in December 1978, May and December 1980, and January, September, and November 1982. These spectra are analyzed to provide mixing profiles of CO in the Venus mesosphere and best constrain the mixing profile of CO between ~ 100 and 80 km altitude. From the January 1982 measurement (which, of all our spectra, best constrains the abundance of CO below 80 km altitude) we find an upper limit for the CO mixing ratio below 80 km altitude that is two to three times smaller than the stratospheric (~65 km) value of 4.5 ± 1.0 × 10?5 determined by P. Connes, J. Connes, L.D. Kaplan, and W. S. Benedict (1968, Astrophys. J.152, 731–743) in 1967, indicating a possible long-term change in the lower atmospheric concentration of CO. Intercomparison among the individual CO profiles derived from our spectra indicates considerable short-term temporal and/or spatial variation in the profile of CO mixing in the Venus mesosphere above 80 km. A more complete comparison with previously published CO microwave spectra from a number of authors specifies the basic diurnal nature of mesospheric CO variability. CO abundance above ~ 95 km in the Venus atmosphere shows approximately a factor of 2–4 enhancement on the nightside relative to the dayside of Venus. Peak nightside CO abundance above ~95 km occurs very near to the antisolar point on Venus (local time of peak CO abundance above ~95 km occurs at 0.6?0.6+0.7 hr after midnight on Venus), strongly suggesting that retrograde zonal flow is substantially reduced at an altitude of 100 km in the Venus mesosphere. In contrast, CO abundances between 80 and 90 km altitude show a maximum that is shifted from the antisolar point toward the morningside of Venus (local time of peak CO abundance between 80 and 90 km occurs at 8.5 ± 1.0 hr past midnight on Venus). The magnitude of the diurnal variation of CO abundance between 80 and 90 km is again, approximately a factor of 2–4. Disk-averaged spectra of Venus do not determine the exact form for the diurnal distribution of CO in the Venus mesosphere as indicated by comparison of synthetic spectra, based upon model distributions, and the measured spectra. However, the offset in phase for the diurnal variation for the >95 km and 80–90-km-altitude regions requires an asymmetric (in solar zenith angle) distribution. 相似文献
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Together with C+ and CO, C is an important reservoir of carbon in the interstellar medium. We present recent results on the ground state transition of atomic carbon at 492 GHz, and on submillimeter CO lines in nearby galaxies. We show that atomic carbon is a good tracer of molecular gas in spiral galaxy disks. It has also a contribution to the molecular gas cooling: the cooling due to C and CO are of the same order of magnitude, and amounts typically to 4× 10-5 of the FIR continuum. C and CO cooling becomes significant in ULIRG galaxies like Arp220.It is possible to use CI measurements to diagnose the physical conditions in galaxies. Together with CII/CI, the emissivity ratio CI/FIR can be used as a measure of the non-ionizing UV radiation field in galaxies. 相似文献
17.
We have quantitatively studied, by infrared absorption spectroscopy, the CO/CO2 molecular number ratio after ion irradiation of ices and mixtures containing astrophysically relevant species such as CO,
CO2, H2O, CH4, CH3OH, NH3, O2, and N2 at 12–15 K. The ratios have also been measured after warm up to temperatures between 12 and 200 K. As a general result we
find that the CO/CO2 ratio decreases with the irradiation dose (amount of energy deposited on the sample). In all of the studied mixtures, as
expected, it decreases with increasing temperature because of CO sublimation. However the temperature where CO sublimes strongly
depends on the initial mixture, remaining at a temperature over 100 K in some cases. Our results might be relevant to interpret
the observed CO/CO2 ratio in several astrophysical scenarios such as planetary icy surfaces and ice mantles on grains in the interstellar medium.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
18.
John S. Carr 《Astrophysics and Space Science》1995,224(1-2):25-28
High-resolution near-infrared spectroscopy of CO overtone emission bands has provided some of the best kinematic evidence for the existence of circumstellar disks around young stars. The CO emission flux and the detailed shape of the overtone bands are well matched by simple Keplerian disk models. A brief overview of the use of infrared CO emission as a diagnostic of the kinematics and conditions of gas in the inner disks of young stars is presented. 相似文献
19.
B. J. Robinson R. N. Manchester W. H. McCutcheon 《Astrophysics and Space Science》1986,119(1):111-114
2.6 mm carbon monoxide and 21 cm hydrogen line observations of the Galaxy define six directions where gas is seen tangentially along a spiral feature and four directions where extended structures cross theR=R
0 circle. These directions provide a geometrical framework for any spiral structure pattern. Also simple equations are derived to define the normalized radiusR/R
0 of gas with a particular radial velocity in terms of the observed tangential velocity of gas with the sameR/R
0=sinl
T, without specific knowledge of (R), 0 orR
0.Paper presented at the IAU Third Asian-Pacific Regional Meeting, held in Kyoto, Japan, between 30 September–6 October, 1984. 相似文献
20.
T. Liljeström 《Astrophysics and Space Science》1990,171(1-2):177-183
High-velocity resolution (V=0.07 km s–1) H12CO+ (J=1–0) and H13CO+ (J=1–0) observations have been carried out towards L1551 by use of the Metsähovi 14-m radio telescope. The observations reveal a bipolar H12CO+ outflow from the pre-Main-Sequence star IRS-5 which is centred on a flattened, 3 long H13CO+ cloud clump. This disk-like cloud structure has a velocity gradient ranging from 6.56 km s–1 in the SE to 7.06 km s–1 in the NW. It is noteworthy that the direction of the H12CO+ ion outflow is oriented E-W, and not along the NE-SW axis of the more extended CO outflow. In the disk area the H12CO+ spectra show to distinct velocity components. The right-hand H12CO+ velocity component agrees with the velocity of the H13CO+ disk. The left-hand H12CO+ component seems to belong to the outflow and the dense lobe material. The H12CO+ isovelocity contour map indicates that the dense lobe material is rotating (V
rot 0.6 km s–1) in the same sense as the H13CO+ disk. This supports hydromagnetic outflow models.Paper presented at the 11th European Regional Astronomical Meetings of the IAU on New Windows to the Universe, held 3–8 July, 1989, Tenerife, Canary Islands, Spain 相似文献