Compact H II regions - Hydrogen recombination and OH maser lines

Abstract Atomic hydrogen masers occur in recombination plasmas in sufficiently dense H ii regions. These hydrogen recombination line (HRL) masers have been observed in a handful of objects to date and the analysis of the atomic physics involved has been rudimentary. In this work a new model of HRL masers is presented which uses an nl-model to describe the atomic populations interacting with free-free radiation from the plasma, and an escape probability framework to deal with radiative transfer effects. The importance of including the collisions between angular momentum quantum states and the free-free emission in models of HRL masers is demonstrated. The model is used to describe the general behaviour of radiative transfer of HRLs and to investigate the conditions under which HRL masers form. The model results show good agreement with observations collected over a broad range of frequencies. Theoretical predictions are made regarding the ratio of recombination lines from the same upper quantum level for these objects.

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Interstellar gas in the central region of the Galaxy

Symposium - International Astronomical Union ◽

10.1017/s0074180900101032 ◽

1967 ◽

Vol 31 ◽

pp. 239-251 ◽

Cited By ~ 3

Author(s):

F. J. Kerr

Keyword(s):

Central Region ◽

Galactic Plane ◽

Neutral Hydrogen ◽

Continuum Emission ◽

Galactic Centre ◽

Interstellar Gas ◽

Hydrogen Recombination ◽

The Galaxy ◽

Centre Region ◽

The Relationship

A review is given of information on the galactic-centre region obtained from recent observations of the 21-cm line from neutral hydrogen, the 18-cm group of OH lines, a hydrogen recombination line at 6 cm wavelength, and the continuum emission from ionized hydrogen.Both inward and outward motions are important in this region, in addition to rotation. Several types of observation indicate the presence of material in features inclined to the galactic plane. The relationship between the H and OH concentrations is not yet clear, but a rough picture of the central region can be proposed.

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The DIVING3D Project: Analysis of the nuclear region of Early-type Galaxies

Proceedings of the International Astronomical Union ◽

10.1017/s174392132000157x ◽

2020 ◽

Vol 15 (S359) ◽

pp. 454-456

Author(s):

T. V. Ricci ◽

J. E. Steiner ◽

R. B. Menezes

Keyword(s):

Emission Lines ◽

H Ii Regions ◽

Sample Type ◽

Early Type ◽

Integral Field Spectroscopy ◽

Project Analysis ◽

Line Region ◽

Field Unit ◽

Integral Field

AbstractIn this work, we present preliminary results regarding the nuclear emission lines of a statistically complete sample of 56 early-type galaxies that are part of the Deep Integral Field Spectroscopy View of Nuclei of Galaxies (DIVING3D) Project. All early type galaxies (ETGs) were observed with the Gemini Multi-Object Spectrograph Integral Field Unit (GMOS-IFU) installed on the Gemini South Telescope. We detected emission lines in 93% of the sample, mostly low-ionization nuclear emission-line region galaxies (LINERs). We did not find Transition Objects nor H II regions in the sample. Type 1 objects are seen in ∼23% of the galaxies.

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Electron temperatures in the Galactic H ii regions W43 and M17

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/281.1.239 ◽

1996 ◽

Vol 281 (1) ◽

pp. 239-244 ◽

Cited By ~ 18

Author(s):

Ravi Subrahmanyan ◽

W. M. Goss

Keyword(s):

H Ii Regions

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Hydrogen recombination scaling experiments at CNL’s hydrogen safety test facility

Nuclear Engineering and Design ◽

10.1016/j.nucengdes.2021.111152 ◽

2021 ◽

Vol 377 ◽

pp. 111152

Author(s):

L.B. Gardner ◽

B. Ibeh ◽

J. Murphy ◽

J. Allain ◽

S. Yeung ◽

...

Keyword(s):

Test Facility ◽

Safety Test ◽

Hydrogen Recombination ◽

Hydrogen Safety

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On the Nature of R 136, the Central Object of 30 Dor. A Comparison by the Galactic Cluster NGC 3603

Symposium - International Astronomical Union ◽

10.1017/s0074180900040341 ◽

1984 ◽

Vol 108 ◽

pp. 257-258

Author(s):

Michael Rosa ◽

Jorge Melnick ◽

Preben Grosbol

Keyword(s):

Core Region ◽

H Ii Regions ◽

Central Object ◽

The Core ◽

Dominant Component ◽

Galactic Cluster ◽

H Ii Region

The massive H II region NGC 3603 is the closest galactic counterpart to the giant LMC nebula 30 Dor. Walborn (1973) first compared the ionizing OB/WR clusters of the two H II regions and suggested that R 136, the unresolved luminous WR + 0 type central object of 30 Dor, might be a multiple system like the core region of NGC 3603. Suggestions that the dominant component of R 136, i.e. R 136A, might be either a single or a very few supermassive and superluminous stars (Schmidt-Kaler and Feitzinger 1982, Savage et al. 1983) have recently been disputed by Moffat and Seggewiss (1983) and Melnick (1983), who have presented spectroscopic and photometric evidence to support the hypothesis of an unresolved cluster of stars. We have extended Walborn's original comparison of the apparent morphology of the two clusters by digital treatment of the images to simulate how the galactic cluster would look like if it were located in the LMC

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Three generations of stars: a possible case of triggered star formation

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa1543 ◽

2020 ◽

Vol 496 (1) ◽

pp. 870-874

Author(s):

M B Areal ◽

A Buccino ◽

S Paron ◽

C Fariña ◽

M E Ortega

Keyword(s):

Star Formation ◽

Young Stellar Objects ◽

H Ii Regions ◽

Stellar Objects ◽

Three Generations ◽

The North ◽

Western Border ◽

H Ii Region ◽

New Generation ◽

North Western

ABSTRACT Evidence for triggered star formation linking three generations of stars is difficult to assemble, as it requires convincingly associating evolved massive stars with H ii regions that, in turn, would need to present signs of active star formation. We present observational evidence for triggered star formation relating three generations of stars in the neighbourhood of the star LS II +26 8. We carried out new spectroscopic observations of LS II +26 8, revealing that it is a B0 III-type star. We note that LS II +26 8 is located exactly at the geometric centre of a semi-shell-like H ii region complex. The most conspicuous component of this complex is the H ii region Sh2-90, which is probably triggering a new generation of stars. The distances to LS II +26 8 and to Sh2-90 are in agreement (between 2.6 and 3 kpc). Analysis of the interstellar medium on a larger spatial scale shows that the H ii region complex lies on the north-western border of an extended H2 shell. The radius of this molecular shell is about 13 pc, which is in agreement with what an O9 V star (the probable initial spectral type of LS II +26 8 as inferred from evolutive tracks) can generate through its winds in the molecular environment. In conclusion, the spatial and temporal correspondences derived in our analysis enable us to propose a probable triggered star formation scenario initiated by the evolved massive star LS II +26 8 during its main-sequence stage, followed by stars exciting the H ii region complex formed in the molecular shell, and culminating in the birth of young stellar objects around Sh2-90.

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3D optical spectroscopic study of NGC 3344 with SITELLE: I. Identification and confirmation of supernova remnants

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz1734 ◽

2019 ◽

Vol 488 (1) ◽

pp. 803-829 ◽

Cited By ~ 2

Author(s):

I Moumen ◽

C Robert ◽

D Devost ◽

R P Martin ◽

L Rousseau-Nepton ◽

...

Keyword(s):

Supernova Remnants ◽

Flux Ratio ◽

Large Magellanic Cloud ◽

Emission Lines ◽

Ionization Mechanism ◽

H Ii Regions ◽

Nearby Galaxy ◽

Galactocentric Distance ◽

Ionized Gas ◽

Diffuse Ionized Gas

ABSTRACT We present the first optical identification and confirmation of a sample of supernova remnants (SNRs) in the nearby galaxy NGC 3344. Using high spectral and spatial resolution data, obtained with the CFHT imaging Fourier transform spectrograph SITELLE, we identified about 2200 emission line regions, many of which are H ii regions, diffuse ionized gas regions, and also SNRs. Considering the stellar population and diffuse ionized gas background, which are quite important in NGC 3344, we have selected 129 SNR candidates based on four criteria for regions where the emission lines flux ratio [S ii]/H α ≥ 0.4. Emission lines of [O ii] λ3727, H β, [O iii] λλ4959,5007, H α, [N ii] λλ6548,6583, and [S ii] λλ6716,6731 have been measured to study the ionized gas properties of the SNR candidates. We adopted a self-consistent spectroscopic analysis, based on Sabbadin plots and Baldwin, Phillips & Terlevich diagrams, to confirm the shock-heated nature of the ionization mechanism in the candidates sample. With this analysis, we end up with 42 Confirmed SNRs, 45 Probable SNRs, and 42 Less likely SNRs. Using shock models, the confirmed SNRs seem to have a metallicity ranging between Large Magellanic Cloud and 2×solar. We looked for correlations between the size of the confirmed SNRs and their emission lines ratios, their galaxy environment, and their galactocentric distance: We see a trend for a metallicity gradient among the SNR population, along with some evolutionary effects.

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