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Call for Observing Proposals on the Interferometer

Observing proposals are invited for the IRAM Plateau de Bure Interferometer (PdBI), for the period May 15, 1996 to Nov. 15, 1996. The deadline for applications is March 4th, 1996. The available frequency range will be 82 GHz to 116 GHz for the 3mm band, and initially 210 to 245 GHz for the 1.3 mm band.

Details of the PdBI and the observing procedures are given in the document ``An Introduction to the IRAM Plateau de Bure Interferometer'' (copies can be obtained from the address below, or from Internet via the World-Wide-Web; use IRAM home page Proposers should read this document carefully before submitting any proposal.

Proposals should be sent to IRAM Scientific Secretariat
Interferometer Observing Proposal
300 Rue de la Piscine
F-38406 Saint Martin d'Hères Cedex

IRAM expects to schedule and complete between 20 to 30 projects in this period, with an elapsed time of at least two months between start and end of any given project. Selection will be based on scientific merit, technical feasibility, and adequacy to the instrument. cm

For this call for proposals, please note the following specificities:

Proposal Category:
Proposals should be submitted in one of the 4 strict categories defined below:
Category 1
: Proposals requiring 3mm data only. 1.3 mm receivers can still be used to provide either phase stability information or purely qualitative information such as the mere existence of fringes. The maximum available baseline length will be about 300 m.
Category 2
: Proposals requiring 1.3mm data only. 3mm receivers will be used for pointing and calibration purposes, but cannot provide any imaging. The maximum available baseline length will be about 200 m.
Category 3
: Proposals requiring dual-frequency observations. The maximum available baseline length will be about 200m.
Category 4
: Exploratory proposals. The scientific interest of these proposals should justify the attempt to use the PdB array beyond its guaranteed capabilities. This category includes for example long baseline observations (A configurations at 3mm, B configurations at 1.3mm), non standard frequencies for which tuning cannot be guaranteed, and more generally all non standard observations. These proposals will be carried on a ``best effort'' basis.

The proposal category will have to be specified on the proposal cover sheet, and should be carefully considered by proposers.

Antenna 5
Antenna 5 will come into operation in May 1996. However, because maintenance is required on the other antennas, the semester will be divided in two periods:

Because of the advent of antenna 5, configurations will again change (Table 6).



Table: Available configurations

With 5 antennas, the PdB interferometer will offer 6 possible configuration sets listed in Table 6. For some projects in which the choice of resolution is unclear, it will still be possible to choose between CD and CC sets after observations on the C2 configuration have been performed first. At a higher resolution level, a similar choice between CC and BC or BB is possible.

1.3 mm band:
All antennas are now equipped with fully operational dual frequency receivers. Since our knowledge of phase stability at 1.3 mm is based on the extrapolation of 3mm observations over the last years, no real guarantee about 1.3mm performances can be given yet. Note that even the ``compact'' CD configuration set would give a resolution better than 2 at 1.3mm. Therefore, the very compact D configuration should be considered.

Note that the field of view at 1.3 mm is very restricted (about 20).

Because of weather conditions, 1.3 mm observations are usually only feasible for objects transiting during the night in the Aug.-Oct. period.

Dual-frequency operation:
The 3mm and 1.3mm receivers are aligned to within about 2.

Because of weather conditions, dual-frequency observations are only feasible for objects transiting during the night in the Aug.-Oct. period.

Very long baselines: configuration A:

The A configuration will not be scheduled for next session.

Signal to Noise:
The rms noise can be computed from


Below 110 GHz, receivers offer best performance in LSB tuning with high rejection (20 dB): expected system temperatures are (in scale) 150 to 200 K for the summer time. Above 110 GHz, best performances are obtained with USB tuning, low rejection (4 to 6 dB): expected system temperatures are 300 K at 115 GHz. DSB tuning is possible over the whole frequency range, but the system temperature may degrade significantly.

The 1.3 mm receivers give DSB tuning with typical T below 50 K. Expected SSB system temperature are 400 to 500 K. However a relatively narrow resonance significantly degrades the performance near 245 GHz. The guaranteed tuning range is 210-245 GHz, but it may be possible to reach lower frequencies for specific cases. Higher frequencies are not feasible because of limitations in the triplers.

Coordinates and Velocities:
The interferometer operates in the J2000.0 system. For best positioning accuracy, source coordinates must be in the J2000.0 system; position errors up to may occur otherwise.

Please do not forget to specify LSR velocities for the sources. For pure continuum projects, the ``special'' velocity NULL (no Doppler tracking) can be used.

Coordinates and velocities in the proposal MUST BE CORRECT: A coordinate error is a potential cause for proposal rejection.

The correlator has 6 independent units, each being tunable anywhere in the 110-610 MHz band, and providing 4 choices of bandwidth/channel configuration: 160 MHz/64, 80 MHz/128, 40 MHz/256 and 20 MHz/256. For the 40, 80 and 160 MHz bandwidths, the two central channels may be perturbed by the Gibbs phenomenon (depending on continuum strength): it is recommended to avoid centering the most important part of the lines in the middle of the band of the correlator unit.

The 6 units can be independently connected either to IF1 (3 mm receiver) or to IF2 (1.3 mm receiver).

40 kHz resolution:
One (and only one) of the 6 units has been retrofitted to offer a higher frequency resolution (40 kHz instead of 80 kHz). This is obtained by operating at half clock speed and inserting an anti-aliasing filter of effective bandwidth 8 MHz. Because the filter reduces the input power to the sampler, this unit should be placed near the maximum of the IF amplitude bandpass: band edges must be avoided.

Sun Avoidance:
For safety reasons, the Sun avoidance circle has been extended to 45 degrees. Please take this into account for your sources and for the calibrators.

The PdBI has mosaicing capabilities, but the pointing accuracy may be a limiting factor at the highest frequencies. Please contact S.Guilloteau in case of doubts.

Data reduction:
Proposers should be aware of constraints for data reduction: Data reduction will be carried out on the dedicated HP workstations.

Local contact:
Depending upon the program complexity, IRAM may require an in-house collaborator instead of the normal local contact.

Technical pre-screening:
All proposals will be reviewed for technical feasibility in parallel to being sent to the members of the program committee. Please help in this task by submitting technically precise proposals. Scientific justification should be kept within 2 pages. Note that your proposal must be complete and exact: velocities, positions and frequency setup must be exactly specified.

Non-standard observations:
Please contact S.Guilloteau in case of doubt about non-standard program feasibility.

The documentation for the IRAM Plateau de Bure interferometer includes documents of general interest to potential users:

More specialized documents are also available; they are intended for observers on the site (IRAM on-duty astronomers, operators, or observers with non-standard programs):

Finally, we would like to stress again the importance of the quality of the observing proposal. The technical preparation of observing proposals is unfortunately often insufficient. In the past, proposals were received which did not even include exact observing frequencies or even source coordinates, or worse, with coordinates with the wrong epoch !... The IRAM interferometer is a powerful, but complex and unique instrument, and proposal preparation requires special care. Information is available in the documentation, and the IRAM staff can help in case of doubts if contacted well before the deadline. Note that the proposal should not only justify the scientific interest, but also demonstrate how the Plateau de Bure interferometer will bring new information.


next up previous contents
Next: Report on Recent Up: IRAM Newsletter 24--25(January 1996) Previous: References