this is a discretionary time proposal to perform a full grating scan with the short wavelength spectrometer of the southern shock peak of the orion irc2 outflow. whilst there are existing scans centred on irc2 itself and the northern shock peak, called pk1, this is a proposal to form a complete data set by observing the southern shock peak, called pk2. such an observation will allow a detailed investigation of the orion irc2 outflow and its shock. for instance, we can look at the differences in molecular hydrogen, h2, excitation between pk2, irc2 and pk1 which may be related to differences in temperature and/or density on either side of irc2, or an asymmetry in the shock itself. furthermore, from other molecular species such as water, co and co2, which have already been detected in irc2 and pk1, we can study the influence of ultraviolet radiation on the chemistry of the irc2 outflow. this stems from the fact that the trapezium stars lie 1 arc minute south east of pk2, which in turn lies south east of irc2 and pk1. geometrical dilution of the uv field may then manifest itself as a gradient in some chemical abundances. we have already detected bright emission from high excitation species toward irc2, such as siv, which was not foreseen given the distance of about 0.1 pc from the relatively low effective temperature trapezium stars (of order 35000 k). observations of pk2 may aid in separating the effects of radiative ionisation from the stars and collisional ionisation within the shock. all studies within the literature of the irc2 outflow consider both pk1 and pk2. this has been the case since 1978 when the first molecular hydrogen map was published by beckwith et al. and the shock peaks defined. it would be remiss of us not to do the same with iso. it is the brightest and most well studied shock region in the sky. to attain a full understanding of it and the physics and chemistry of shocks we need to obtain a comprehe...nsive set of observations. this represents our last opportunity for a very long time.
Instrument
SWS01
Temporal Coverage
1998-02-25T23:28:06Z/1998-02-26T01:17:04Z
Version
1.0
Mission Description
The Infrared Space Observatory (ISO) was the world's first true orbiting infrared observatory. Equipped with four highly-sophisticated and versatile scientific instruments, it was launched by Ariane in November 1995 and provided astronomers world-wide with a facility of unprecedented sensitivity and capabilities for a detailed exploration of the Universe at infrared wavelengths.
