Book contents
- Frontmatter
- Contents
- Preface
- Conference participants
- Conference photograph / poster
- 1 Physics of H2 and HD
- 2 Formation - Destruction
- 3 Observations and Models
- Non Stationary C-shocks: H2 Emission in Molecular Outflows
- The Ortho/Para Ratio in C and J-type Shocks
- Theoretical Models of Photodissociation Fronts
- ISO Spectroscopy of H2 in Star Forming Regions
- Observations of the H2 Ortho-Para Ratio in Photodissociation Regions
- H2 Emission from CRL618
- Hydrogen in Photodissociation Regions: NGC2023 and NGC7023
- A Pre-FUSE View of H2
- H2 Absorption Line Measurements with ORFEUS
- Ultraviolet Observations of Molecular Hydrogen in Interstellar Space
- FUSE and Deuterated Molecular Hydrogen
- ISO-SWS Observations of H2 in Galactic Sources
- H2 in Molecular Supernova Remnants
- 3D Integral Field H2 Spectroscopy in Outflows
- Near-Infrared Imaging and [OI] Spectroscopy of IC443 using 2MASS and ISO
- ISOCAM Spectro-imaging of the Supernova Remnant IC443
- Spatial Structure of a Photo-Dissociation Region in Ophiucus
- Tracing H2 Via Infrared Dust Extinction
- The Small Scale Structure of H2 Clouds
- Hot Chemistry in the Cold Diffuse Medium: Spectral Signature in the H2 Rotational Lines
- H2 Observations of the OMC-1 Outflow with the ISO-SWS
- 4 Extragalactic and Cosmology
- 5 Outlook
- Author index
The Small Scale Structure of H2 Clouds
from 3 - Observations and Models
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Preface
- Conference participants
- Conference photograph / poster
- 1 Physics of H2 and HD
- 2 Formation - Destruction
- 3 Observations and Models
- Non Stationary C-shocks: H2 Emission in Molecular Outflows
- The Ortho/Para Ratio in C and J-type Shocks
- Theoretical Models of Photodissociation Fronts
- ISO Spectroscopy of H2 in Star Forming Regions
- Observations of the H2 Ortho-Para Ratio in Photodissociation Regions
- H2 Emission from CRL618
- Hydrogen in Photodissociation Regions: NGC2023 and NGC7023
- A Pre-FUSE View of H2
- H2 Absorption Line Measurements with ORFEUS
- Ultraviolet Observations of Molecular Hydrogen in Interstellar Space
- FUSE and Deuterated Molecular Hydrogen
- ISO-SWS Observations of H2 in Galactic Sources
- H2 in Molecular Supernova Remnants
- 3D Integral Field H2 Spectroscopy in Outflows
- Near-Infrared Imaging and [OI] Spectroscopy of IC443 using 2MASS and ISO
- ISOCAM Spectro-imaging of the Supernova Remnant IC443
- Spatial Structure of a Photo-Dissociation Region in Ophiucus
- Tracing H2 Via Infrared Dust Extinction
- The Small Scale Structure of H2 Clouds
- Hot Chemistry in the Cold Diffuse Medium: Spectral Signature in the H2 Rotational Lines
- H2 Observations of the OMC-1 Outflow with the ISO-SWS
- 4 Extragalactic and Cosmology
- 5 Outlook
- Author index
Summary
We present recent results from a program devoted to the study of small scale structure in translucent molecular clouds, using dust as a tracer. Several methods have been employed: i) statistical analysis of stellar fields, ii) studies of background galaxies; iii) searches for time variations of the extinction and reddening. For each method, we summarize the principles, the type of constraints provided (scales, sensitivity) and present the results obtained so far. We conclude by some prospects concerning direct studies of the distribution of H2 itself.
Motivations
Originally, we wished to constrain in a direct way the level at which the penetration of the stellar UV and visible radiation is enhanced by structure effects (cf Boissé 1990). Studies of spatial variations of dust extinction and reddening offer a powerful way to address this question. Indeed, in the presence of density fluctuations, the analysis of extinction in stellar fields directly provides a measure of the effective opacity (Thoraval et al. 1997). Further, in the visible, the required observations are easy to perform and provide an excellent spatial resolution.
Another motivation comes from the detection of very small scale structure both in atomic (Frail et al. 1994) and molecular gas (Moore & Marscher 1995). In the assumption of a uniform dust to gas ratio, one should observe corresponding variations of the amount of dust, resulting in local variations of the extinction.
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- Chapter
- Information
- Molecular Hydrogen in Space , pp. 221 - 224Publisher: Cambridge University PressPrint publication year: 2000