Ammonia observations towards the Aquila Rift cloud complex

K. Tursun, J. Esimbek, C. Henkel, Xindi Tang, Gang Wu, Da-lei Li, Jianjun Zhou, Yuxin He, T. Komesh, S. Sailanbek
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Abstract

We surveyed the Aquila Rift complex including the Serpens South and W40 region in the NH$_3$(1,1) and (2,2) transitions making use of the Nanshan 26-m telescope. The kinetic temperatures of the dense gas in the Aquila Rift complex range from 8.9 to 35.0K with an average of 15.3$\pm$6.1K. Low gas temperatures associate with Serpens South ranging from 8.9 to 16.8K with an average 12.3$\pm$1.7K, while dense gas in the W40 region shows higher temperatures ranging from 17.7 to 35.0K with an average of 25.1$\pm$4.9 K. A comparison of kinetic temperatures against HiGal dust temperatures indicates that the gas and dust temperatures are in agreement in the low mass star formation region of Serpens South. In the high mass star formation region W40, the measured gas kinetic temperatures are higher than those of the dust. The turbulent component of the velocity dispersion of NH$_3$(1,1) is found to be positively correlated with the gas kinetic temperature, which indicates that the dense gas may be heated by dissipation of turbulent energy. For the fractional total-NH3 abundance obtained by a comparison with Herschel infrared continuum data representing dust emission we find values from 0.1 to 21$\times 10^{-8}$ with an average of 6.9$(\pm 4.5)\times 10^{-8}$. Serpens South also shows a fractional total-NH3 abundance ranging from 0.2 to 21$\times 10^{-8}$ with an average of 8.6($\pm 3.8)\times 10^{-8}$. In W40, values are lower, between 0.1 and 4.3$\times 10^{-8}$ with an average of 1.6($\pm 1.4)\times 10^{-8}$. Weak velocity gradients demonstrate that the rotational energy is a negligible fraction of the gravitational energy. In W40, gas and dust temperatures are not strongly dependent on the projected distance to the recently formed massive stars. Overall, the morphology of the mapped region is ring-like, with strong emission at lower and weak emission at higher Galactic longitudes.
对天鹰座裂谷云复合体的氨观测
我们利用南山26米望远镜在NH$_3$(1,1)和(2,2)过渡区观测了Aquila裂谷复合体,包括蛇蛇南和W40区域。Aquila裂谷复合体致密气体的动力学温度范围为8.9 ~ 35.0K,平均温度为15.3$\pm$6.1K。低气体温度范围为8.9 ~ 16.8K,平均为12.3$\pm$1.7K,而W40区域的致密气体温度范围为17.7 ~ 35.0K,平均为25.1$\pm$4.9 K。动力学温度与HiGal尘埃温度的比较表明,在蛇蛇南的低质量恒星形成区,气体和尘埃的温度是一致的。在高质量恒星形成区W40,测量到的气体动力学温度高于尘埃的动力学温度。发现NH$_3$(1,1)的速度色散的湍流分量与气体的动力学温度正相关,这表明稠密气体可能是通过湍流能量的耗散来加热的。通过与代表尘埃发射的赫歇尔红外连续体数据的比较,我们发现分数总nh3丰度的值为0.1至21$\乘以10^{-8}$,平均值为6.9$(\pm 4.5)\乘以10^{-8}$。南蛇岛的总nh3丰度从0.2到21$\乘以10^{-8}$不等,平均为8.6($\pm 3.8)\乘以10^{-8}$。在W40中,数值较低,在0.1和4.3$\乘以10^{-8}$之间,平均为1.6($\pm 1.4)\乘以10^{-8}$。微弱的速度梯度表明,旋转能在重力能中只占很小的一部分。在W40中,气体和尘埃的温度与最近形成的大质量恒星的预测距离没有很大的关系。总的来说,映射区域的形态呈环状,在低经度处发射强,在高经度处发射弱。
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