Currently, the interferometer consists of five antennas arranged in a T-shaped pattern extending over a maximum of 408 meters east-west and 232 meters north-south. A sixth antenna is expected to be ready mid 2000, and further baseline extension of the north track is under way.
The antennas are conceptually identical: they all have a fully steerable alt-az mount which incorporates a self-propelled transporter for moving the antennas (130 tons) along the tracks between stations. Each antenna is a 15m diameter Cassegrain telescope with the backstructure and quadrupod legs largely made of carbon fiber for high thermal stability. The high precision of the reflecting antenna surface (40-60m) guarantees best performance: all antennas have essentially the same sensitivity (22Jy.K-1 at 3mm, 35Jy.K-1 at 1mm - see lecture by A.Dutrey), and very similar pointing and focusing characteristics.
All the antennas are equipped with dual-frequency SIS receivers operating simultaneously in the 82GHz-115GHz and 205GHz-245GHz range. Typical double sideband receiver noise temperatures are between 25K and 50K at 3mm and between 40K and 60K at 1mm. The receivers upper and lower sidebands are separated by the correlators with a rejection better than 26dB. The lower to upper sideband gain ratio depends on the receiver and varies typically between 0.2 and 4.0 under standard operating conditions in the 3mm band, and yields essentially a double-side band tuning in the 1mm band. Pure single sideband tuning (with rejection 15 to 25 dB) is also possible in the 3mm band, with receiver temperatures around 60 to 80K.
Six totally independent correlators units are available that provide an 87% correlation efficiency (for more details see H.Wiesemeyer's lecture). Each correlator unit provides 4 choices of bandwidth/channel configurations, a single unit provides an additional configuration with a nominal velocity resolution of 50m.s-1 at 230GHz. The correlators can independently be connected either to the 3mm (100-600 MHz IF1) or to the 1mm receivers (100-600 MHz IF2).
A central control computer coordinates the entire interferometer (antennas, receivers and correlators and quite some other equipment) and makes the data acquisition. Raw data corresponding to the individual dumps of the correlator buffers will not be available as real-time jobs apply automatic calibrations (clipping correction, apodization, FFT, sideband separation, small delay correction, bandpass correction and other corrections) and make automatic data quality assessments (marking bad data, shadowing, phase lock, just to cite a few flags) before data is written to disk. A second workstation provides the software resources for offline data analysis and for data archiving before transfer to the Grenoble headquarters.