Shalabiea et al., 1995 - Google Patents
Chemical evolution of free-fall collapsing interstellar clouds: pseudo and real time dependent models.Shalabiea et al., 1995
View HTML- Document ID
- 6269509967187183937
- Author
- Shalabiea O
- Greenberg J
- Publication year
- Publication venue
- Astronomy and Astrophysics, v. 303, p. 233
External Links
Snippet
We have investigated the effect of using real and pseudo time dependent models on the chemical evolution of collapsing interstellar clouds considering, as a first step, the early free- fall collapse phase. Two chemical models have been presented in all cases: 1) pure gas …
- 239000000126 substance 0 title abstract description 47
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Von Steiger et al. | Supply of fractionated gases to the corona | |
| Puy et al. | Formation of primordial molecules and thermal balance in the early universe | |
| Hunten | Thermal and nonthermal escape mechanisms for terrestrial bodies | |
| Larimer et al. | Chemical fractionations in meteorites—II. Abundance patterns and their interpretation | |
| Geiss et al. | Deuterium in the solar system | |
| Delsemme | Our cosmic origins: from the Big Bang to the emergence of life and intelligence | |
| Meyer et al. | Galactic cosmic rays from supernova remnants. I. A cosmic-ray composition controlled by volatility and mass-to-charge ratio | |
| Shalabiea et al. | Two key processes in dust/gas chemical modelling: photoprocessing of grain mantles and explosive desorption. | |
| Clayton | Supernovae and the origin of the solar system | |
| Clayton | Precondensed matter: key to the early solar system | |
| Turner | Could primordial black holes be the source of the cosmic ray antiprotons? | |
| Wiescher et al. | F-17 (p, gamma) Ne-18 in explosive hydrogen burning | |
| Shalabiea et al. | Chemical evolution of free-fall collapsing interstellar clouds: pseudo and real time dependent models. | |
| Kuroda et al. | Xenon isotope anomalies in the carbonaceous chondrite Murray | |
| Dalgarno et al. | Ion chemistry in atmospheric and astrophysical plasmas | |
| Flower et al. | Thermal and chemical evolution of interstellar clouds | |
| Sappey et al. | Cu+ 2 vibronic states at 0–1.4 eV from multiphoton ionization–photoelectron spectroscopy | |
| Anders | Conditions in the early solar system, as inferred from meteorites | |
| Herbst | Interstellar Molecular Formation Processes | |
| MacKay | SiO in dense molecular clouds reconsidered | |
| Yeghikyan | On dust irradiation in planetary nebulae in the context of survivability of ices | |
| Kerridge et al. | Solar wind nitrogen-mechanisms for isotopic evolution | |
| Chandrasekhar | The black hole in astrophysics: the origin of the concept and its role | |
| Herbst | The chemistry of interstellar space | |
| Oparin | The origin of life in space |