Add to ORKGWe reexamine the spectroscopic underpinnings of recent suggestions that [O I] and [Fe II] lines from the Orion H II region are produced in gas where the iron-carrying grains have been destroyed and the electron density is surprisingly high. Our new observations show that previous detections of [O I] 5577 were dominated by telluric emission. Our limits are consistent with a moderate density (≈ 104 cm-3) photoionized gas. We show that a previously proposed model of the Orion H II region reproduces the observed [O I] and [Fe II] spectrum. These lines are fully consistent with formation in a dusty region of moderate density
International audience Aims: We have selected the Galactic H ii region M 43, a close-by apparently s...
Context. The nearby Orion Kleinmann-Low nebula is one of the most prolific sources of molecular line...
International audience Aims: We re-examine the recombination/collisional emission line (RL/CEL) nebu...
We reexamine the spectroscopic underpinnings of recent suggestions that [O I] and [Fe II] lines from...
We reexamine the spectroscopic underpinnings of recent claims that low ionization (O(I)) and (Fe(II)...
grantor: University of TorontoThis thesis focuses on the elaboration of numerical models o...
This paper presents detailed comparisons between numerical simulations of Fe II emission spectra and...
The emission spectra and the ionization structure of the low ionization stages of iron, Fe I--IV, in...
We analyze the physical conditions (density and temperature), chemical abundances, dynamics and kine...
Additional evidence for the existence of interstellar grains in H II regions is presented from obser...
. The circumstellar material surrounding most low-mass young stars in the Orion Nebula Cluster is re...
International audienceContext. The [C II] 158 μm fine-structure line is the dominant cooling line of...
The most detailed study to date of the physical diagnostics and ionization structure of the core of ...
Orion\u27s veil consists of several layers of largely neutral gas lying between us and the main ioni...
We present the result of a systematic search for the iron Kα fluorescent line at ~6.4 keV among 1616...
International audience Aims: We have selected the Galactic H ii region M 43, a close-by apparently s...
Context. The nearby Orion Kleinmann-Low nebula is one of the most prolific sources of molecular line...
International audience Aims: We re-examine the recombination/collisional emission line (RL/CEL) nebu...
We reexamine the spectroscopic underpinnings of recent suggestions that [O I] and [Fe II] lines from...
We reexamine the spectroscopic underpinnings of recent claims that low ionization (O(I)) and (Fe(II)...
grantor: University of TorontoThis thesis focuses on the elaboration of numerical models o...
This paper presents detailed comparisons between numerical simulations of Fe II emission spectra and...
The emission spectra and the ionization structure of the low ionization stages of iron, Fe I--IV, in...
We analyze the physical conditions (density and temperature), chemical abundances, dynamics and kine...
Additional evidence for the existence of interstellar grains in H II regions is presented from obser...
. The circumstellar material surrounding most low-mass young stars in the Orion Nebula Cluster is re...
International audienceContext. The [C II] 158 μm fine-structure line is the dominant cooling line of...
The most detailed study to date of the physical diagnostics and ionization structure of the core of ...
Orion\u27s veil consists of several layers of largely neutral gas lying between us and the main ioni...
We present the result of a systematic search for the iron Kα fluorescent line at ~6.4 keV among 1616...
International audience Aims: We have selected the Galactic H ii region M 43, a close-by apparently s...
Context. The nearby Orion Kleinmann-Low nebula is one of the most prolific sources of molecular line...
International audience Aims: We re-examine the recombination/collisional emission line (RL/CEL) nebu...