基于ALMA高分辨率多谱线的NGC 1068核区物理性质研究

Q4 Physics and Astronomy
LIN Shu-ting , GAO Yu , TAN Qing-hua
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The HCN emission in the CND show enhancement compared with HCO<span><math><msup><mrow></mrow><mo>+</mo></msup></math></span><span>, which could be affected by the AGN (Active Galactic Nucleus) radiation and starburst activity. The CO (3-2)/CO (1-0) integrated intensity ratio is a significant indicator of gas excitation. CO (3-2)/CO (1-0) ratios show much higher values at the E-knot, suggesting that there is molecular excitation enhancement caused by the extreme physical environment. Compared with the fluxes of HCN (4-3) and HCO</span><span><math><msup><mrow></mrow><mo>+</mo></msup></math></span><span> (4-3) from the single-dish telescope JCMT (James Clerk Maxwell Telescope), the ALMA missing fluxes of dense molecular gas on 1 kpc scale are about 10%–20%. The spectral lines show that the flux ratios between E-knot and W-knot are </span><span><math><mo>∼</mo></math></span> 1.8–3.9. These differences shown between E-knot and W-knot may be associated with the AGN feedback. In addition, the CO (2-1), CO (1-0) and HCO<span><math><msup><mrow></mrow><mo>+</mo></msup></math></span> (1-0) spectra show absorption features in the position of AGN. 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引用次数: 0

摘要

利用ALMA(阿塔卡马大毫米/亚毫米阵列)的高分辨率(~0.2〃~0.7〃)多谱线和连续谱数据,研究了附近星系NGC 1068核区的物理性质。谱线包括CO(1-0)、CO(2-1)、CO。在速度积分强度图像中,CND(环核盘)显示了一个尺寸为~300pc的不对称环形结构。CND的所有分子线在CND的东部结(E结)处显示出比西部结(W结)更强的发射。此外,E结显示出比W结更大的速度,这表明CND中存在显著的旋转模式。致密气体分数(通过HCN或HCO+到CO(1-0)积分强度比的不同转变来追踪)和致密气体比(HCN/HCO+)在E结处更高,这意味着E结和W结具有不同的物理环境或化学成分。与HCO+相比,CND中的HCN发射增强,这可能受到AGN辐射和星暴活动的影响。CO(3-2)/CO(1-0)积分强度比是气体激发的重要指标。CO(3-2)/CO(1-0)比值在E结处显示出高得多的值,表明存在由极端物理环境引起的分子激发增强。与单碟望远镜JCMT(James Clerk-Maxwell望远镜)的HCN(4-3)和HCO+(4-3)通量相比,1kpc尺度上致密分子气体的ALMA缺失通量约为10%-20%。谱线显示E结和W结之间的通量比为~1.8–3.9。在E结和W结之间示出的这些差异可以与AGN反馈相关联。此外,CO(2-1)、CO(1-0)和HCO+(1-0。这种吸收可能是由连续发射的强背景引起的,并且AGN周围的气体流入可以在光谱中产生自吸收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on Physical Properties in NGC 1068 Nuclear Region Based on ALMA High-resolution Multi-spectral Lines

Using the multi-spectral lines from ALMA (Atacama Large Millimeter/submillimeter Array) with high-resolution ( 0.2–0.7) and the continuum data, this work studies the physical properties of the nuclear region of nearby galaxy NGC 1068. The spectral lines include CO (1-0), CO (2-1), CO (3-2), HCN (1-0), HCO+ (1-0), HCN (3-2), HCO+ (3-2), HCN (4-3) and HCO+ (4-3). The CND (CircumNuclear Disk) shows an asymmetric ring structure with a size of 300 pc in the velocity-integrated intensity images. All the molecular lines of the CND show stronger emission at the eastern knot (E-knot) than the western knot (W-knot) of the CND. Furthermore, the E-knot shows larger velocities than the W-knot, which indicates that there is significant rotational pattern in the CND. The dense gas fraction (traced by the different transitions of HCN or HCO+ to CO (1-0) integrated intensity ratios) and dense gas ratio (HCN/HCO+) are higher at the E-knot, implying that the E- and W-knots have different physical environments or chemical compositions. The HCN emission in the CND show enhancement compared with HCO+, which could be affected by the AGN (Active Galactic Nucleus) radiation and starburst activity. The CO (3-2)/CO (1-0) integrated intensity ratio is a significant indicator of gas excitation. CO (3-2)/CO (1-0) ratios show much higher values at the E-knot, suggesting that there is molecular excitation enhancement caused by the extreme physical environment. Compared with the fluxes of HCN (4-3) and HCO+ (4-3) from the single-dish telescope JCMT (James Clerk Maxwell Telescope), the ALMA missing fluxes of dense molecular gas on 1 kpc scale are about 10%–20%. The spectral lines show that the flux ratios between E-knot and W-knot are 1.8–3.9. These differences shown between E-knot and W-knot may be associated with the AGN feedback. In addition, the CO (2-1), CO (1-0) and HCO+ (1-0) spectra show absorption features in the position of AGN. This absorption could be caused by the strong background of continuum emissions, and the gas inflow around the AGN can produce self-absorption in spectra.

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来源期刊
Chinese Astronomy and Astrophysics
Chinese Astronomy and Astrophysics Physics and Astronomy-Astronomy and Astrophysics
CiteScore
0.70
自引率
0.00%
发文量
20
期刊介绍: The vigorous growth of astronomical and astrophysical science in China led to an increase in papers on astrophysics which Acta Astronomica Sinica could no longer absorb. Translations of papers from two new journals the Chinese Journal of Space Science and Acta Astrophysica Sinica are added to the translation of Acta Astronomica Sinica to form the new journal Chinese Astronomy and Astrophysics. Chinese Astronomy and Astrophysics brings English translations of notable articles to astronomers and astrophysicists outside China.
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