“星系中的常见发射线”的版本间差异

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参见[[SFR]]
==电离势==
*H0 13.6
*He0 24.6
* S++ 34.8, O+ 35.1
* He+ 54.4, O++ 54.9
*O0可以电离到3种不同的O+状态(4S,2D,2P),从O0(3P)到O+的电离势为13.62

==光学波段==
==光学波段==
* [OII] doublet (3737A)
* [OII] doublet (3737A)
* [[{[OIII] (4959A and 5007A)}]]
* [[OIII5007 | [OIII] (4959A and 5007A) ]]
* Balmer series (6563A, 4861A, 4340A, 4103A, ...).
* Balmer series (6563A, 4861A, 4340A, 4103A, ...).
* [NII]6583A
* [NII]6583A
* [CII] 158$\mu$m fine-structure line
:trace regions of active star formation and is the main coolant of the cold, neutral atomic medium.[http://arxiv.org/abs/1504.05216]
* 发射线的线比可以区分不同的电离机制,金属丰度 [[BPT diagram]],详细的工作可参见[http://arxiv.org/abs/1606.04667]
* 发射线的线比可以区分不同的电离机制,金属丰度 [[BPT diagram]],详细的工作可参见[http://arxiv.org/abs/1606.04667]
*[NII]/[OII]: . intermediate mass stars are the main source of nitrogen en- richment in massive galaxies (Moll´a et al. 2015), the gas from their stellar winds should be, on average, extremely nitrogen- rich.
*[[SII]]:电离势 10.4ev


==红外谱线==
==红外谱线==
*精细结构线 [http://arxiv.org/abs/1607.02511]
*精细结构线 [http://arxiv.org/abs/1607.02511]
:*最强的线 [CII]158mu [OIII]88mu [OI]64mu,[OIII]来自HII区
:*The new [OIV]25.9μm/[OIII]88μm vs [NeIII]15.6μm/[NeII]12.8μm diagram is proposed as the best diagnostic to separate: i) AGN activity from any kind of star formation; and ii) low-metallicity dwarf galaxies from starburst galaxies.
:*The new [OIV]25.9μm/[OIII]88μm vs [NeIII]15.6μm/[NeII]12.8μm diagram is proposed as the best diagnostic to separate: i) AGN activity from any kind of star formation; and ii) low-metallicity dwarf galaxies from starburst galaxies.
:*the ([NeIII]15.6μm + [NeII]12.8μm)/([SIV]10.5μm + [SIII]18.7μm) ratio is proposed as a promising metallicity tracer to be used in obscured objects, where optical lines fail to accurately measure the metallicity.
:*the ([NeIII]15.6μm + [NeII]12.8μm)/([SIV]10.5μm + [SIII]18.7μm) ratio is proposed as a promising metallicity tracer to be used in obscured objects, where optical lines fail to accurately measure the metallicity.
:*[CII] 158$\mu$m fine-structure line,trace regions of active star formation and is the main coolant of the cold, neutral atomic medium.[http://arxiv.org/abs/1504.05216]
:weak [NII] 205 um: 恒星形成 [http://arxiv.org/abs/1607.02520]
:*C原子的电离势11.2eV,因此C+在中性和电离去都存在,因此[CII]158mu能不能做SFR的指针有争议 (arXiv1910.0541),[CII]是PDR区域最有效的冷却线
:*[NII]205mu, N原子的电离势是14.5ev,比H要高,因此[NII]线是在HII区才有
*both [CI] and CO emission trace gas that is predominantly molecular, with a density n ~ 500-1000 cm−3, [CII] traces lower density material (n ~ 100 cm−3) [https://arxiv.org/abs/1809.00489]

*weak [NII] 205 um: 恒星形成 [http://arxiv.org/abs/1607.02520]

==coronal lines ==
* Higher-ionization, collisionally excited optical forbid�den lines, known as optical “coronal lines” (CLs; first discovered in the solar corona)
:为什么在AGN中很弱?因为尘埃的沉降效应使得它们很弱[https://arxiv.org/abs/2408.15229]

2024年8月28日 (三) 14:25的最新版本

参见SFR

电离势

  • H0 13.6
  • He0 24.6
  • S++ 34.8, O+ 35.1
  • He+ 54.4, O++ 54.9
  • O0可以电离到3种不同的O+状态(4S,2D,2P),从O0(3P)到O+的电离势为13.62

光学波段

  • [OII] doublet (3737A)
  • [OIII] (4959A and 5007A)
  • Balmer series (6563A, 4861A, 4340A, 4103A, ...).
  • [NII]6583A
  • 发射线的线比可以区分不同的电离机制,金属丰度 BPT diagram,详细的工作可参见[1]
  • [NII]/[OII]: . intermediate mass stars are the main source of nitrogen en- richment in massive galaxies (Moll´a et al. 2015), the gas from their stellar winds should be, on average, extremely nitrogen- rich.
  • SII:电离势 10.4ev

红外谱线

  • 精细结构线 [2]
  • 最强的线 [CII]158mu [OIII]88mu [OI]64mu,[OIII]来自HII区
  • The new [OIV]25.9μm/[OIII]88μm vs [NeIII]15.6μm/[NeII]12.8μm diagram is proposed as the best diagnostic to separate: i) AGN activity from any kind of star formation; and ii) low-metallicity dwarf galaxies from starburst galaxies.
  • the ([NeIII]15.6μm + [NeII]12.8μm)/([SIV]10.5μm + [SIII]18.7μm) ratio is proposed as a promising metallicity tracer to be used in obscured objects, where optical lines fail to accurately measure the metallicity.
  • [CII] 158$\mu$m fine-structure line,trace regions of active star formation and is the main coolant of the cold, neutral atomic medium.[3]
  • C原子的电离势11.2eV,因此C+在中性和电离去都存在,因此[CII]158mu能不能做SFR的指针有争议 (arXiv1910.0541),[CII]是PDR区域最有效的冷却线
  • [NII]205mu, N原子的电离势是14.5ev,比H要高,因此[NII]线是在HII区才有
  • both [CI] and CO emission trace gas that is predominantly molecular, with a density n ~ 500-1000 cm−3, [CII] traces lower density material (n ~ 100 cm−3) [4]
  • weak [NII] 205 um: 恒星形成 [5]

coronal lines

  • Higher-ionization, collisionally excited optical forbid�den lines, known as optical “coronal lines” (CLs; first discovered in the solar corona)
为什么在AGN中很弱?因为尘埃的沉降效应使得它们很弱[6]