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Astron. Astrophys. 347, 640-649 (1999)
PRONAOS observations of MCLD 123.5 + 24.9: cold dust in the Polaris cirrus cloud
J.P. Bernard 1,
A. Abergel 1,
I. Ristorcelli 2,
F. Pajot 1,
J.P. Torre 3,
F. Boulanger 1,
M. Giard 2,
G. Lagache 1,
G. Serra 2,
J.M. Lamarre 1,
J.L. Puget 1,
F. Lepeintre 1 and
L. Cambrésy 4
1 IAS, bâtiment 121, Campus d'Orsay, F-91405 Orsay Cedex, France
2 CESR, 9 Avenue du Colonel Roche, B.P. 4346, F-31029 Toulouse, France
3 SA, UPR-CNRS, Verrières-le Buisson, France
4 DESPA, Observatoire de Paris, 5 Place Jules Janssen, F-92195 Meudon Cedex, France
Received 7 January 1999 / Accepted 18 March 1999
Abstract
We present submillimeter observations between 200 and
![[FORMULA]](img1.gif)
obtained with the French
balloon-borne instrument SPM/PRONAOS toward the high latitude cirrus
cloud ![[FORMULA]](img2.gif)
in the Polaris Flare. These
sensitive measurements allow for the first time to study in details
the submillimeter dust emission of cirruses at the arc minute scale.
The extended cirrus as well as a compact condensation already
identified as an NH3 core are well detected in the four
photometric channels of the instrument. We also present preliminary
results of observations of the same region at
![[FORMULA]](img3.gif)
obtained with PHOT on board the ISO
satellite. The data are consistent with emission from cold dust at 13
K with a steep dust emissivity index of
![[FORMULA]](img4.gif)
for the extended cirrus. This value
is consistent with, although slightly higher than the one used to
describe the FIRAS data at high latitude
(![[FORMULA]](img5.gif)
). It is compatible with recent
laboratory measurements for amorphous silicates at low temperature
which indicate ![[FORMULA]](img6.gif)
. We show that the low
value of the dust temperature for the extended cirrus cannot be
explained by extinction from the surrounding medium and/or internal
extinction in the cloud.
We propose that the optical properties of dust in regions such as
the Polaris cirrus, which exhibit large
![[FORMULA]](img7.gif)
excess over their
![[FORMULA]](img8.gif)
emission, are modified compared to
those prevailing in the general diffuse interstellar medium in the
Galaxy. This change in the optical properties of large grains is
likely connected to the coagulation of smaller dust particles on large
size grains.
Key words: ISM:
clouds 
ISM: dust,
extinction
ISM: individual objects:
MCLD 123.5+24.9
infrared: ISM:
continuum
submillimeter
Send offprint requests to: J.P. Bernard (bernard@ias.fr)
Contents
- 1. Introduction
- 2. SPM/PRONAOS observations
- 3. ISO/PHOT observations
- 4. Results
- 5. Discussion
- 6. Conclusion
- Acknowledgements
- References
© European Southern Observatory (ESO) 1999
Online publication: June 30, 1999
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