Foster, J. B.; Rathborne, J. M.; Sanhueza, P.; Claysmith, C.; Whitaker, J. S.; Jackson, J. M.; Mascoop, J. L.; Wienen, M.; Breen, S. L.; Herpin, F.; Duarte-Cabral, A.; Csengeri, T.; Contreras, Y.; Indermuehle, B.; Barnes, P. J.; Walsh, A. J.; Cunningham, M. R.; Britton, T. R.; Voronkov, M. A.; Urquhart, J. S.; Alves, J.; Jordan, C. H.; Hill, T.; Hoq, S.; Brooks, K. J.; Longmore, S. N.
Publications of the Astronomical Society of Australia, Volume 30, id.e038 25 pp. (2013).
07/2013
We characterise the Millimetre Astronomy Legacy Team 90 GHz Survey (MALT90) and the Mopra telescope at 90 GHz. We combine repeated position-switched observations of the source G300.968+01.145 with a map of the same source in order to estimate the pointing reliability of the position-switched observations and, by extension, the MALT90 survey; we estimate our pointing uncertainty to be 8 arcsec. We model the two strongest sources of systematic gain variability as functions of elevation and time-of-day and quantify the remaining absolute flux uncertainty. Corrections based on these two variables reduce the scatter in repeated observations from 12%-25% down to 10%-17%. We find no evidence for intrinsic source variability in G300.968+01.145. For certain applications, the corrections described herein will be integral for improving the absolute flux calibration of MALT90 maps and other observations using the Mopra telescope at 90 GHz.