|
|
Reports
A search using the Very Large Array was performed for
1720-megahertz OH maser line emission from a number of nonthermal radio
continuum sources in the galactic center region. The 1720-megahertz
transition has recently been noted for its potential as a tracer of
shock activity. The most striking result was the detection of extended
1720-megahertz OH maser emission, as well as a number of compact OH
maser features, along the interface between a large-scale continuum
shell (G359.1-0.5) and its surrounding ring of high-velocity molecular
gas. The morphological correlation among the neutral gas, the
nonthermal shell, and the maser features provides strong support for
the hypothesis that the 1720-megahertz maser line of OH arises from gas
shocked by the impact of the expanding supernova remnant into the
molecular material. However, the radial velocities of the molecular
cloud surrounding G359.1-0.5 are more negative than that of the OH
maser spots by more than 50 kilometers per second. Here it is suggested
that only the low-radial-velocity component of the carbon monoxide
material at the limb of the remnant satisfies the physical conditions
required for collisional pumping of the OH 1720-megahertz line behind
the expanding shock front.
THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
|
Science. ISSN 0036-8075 (print), 1095-9203 (online)
News | Science Journals | Careers | Blogs and Communities | Multimedia | Collections | Help | Site Map | RSS
Subscribe | Feedback | Privacy / Legal | About Us | Advertise With Us | Contact Us
© 1995 American Association for the Advancement of Science. All Rights Reserved.
AAAS is a partner of HINARI, AGORA, PatientInform, CrossRef, and COUNTER.
You have reached the bottom of the page. Back to top