VLA Proposal Guide

by Emmanuel Momjian last modified Jul 06, 2020 by Davis Murphy

 

VLA Configuration Plans and Science Time Available

The August 03, 2020 deadline covers the observing period February 26, 2021 through August 30, 2021 (Semester 2021A), encompassing the D and C configurations of the VLA. Multi-configuration proposals that include this configuration may also be submitted. Additionally, proposals requesting only configurations that will fall in semester 2021B (or later) may be submitted if the Principal Investigator is a graduate student. NRAO offers this service to provide scientific and technical feedback for students, and to provide them with an opportunity to re-submit their proposals for their principal semester with this information in hand. Students should ensure that their status is up to date and correct in the NRAO User Database. Please refer to the VLA Configuration Plans for details and availability of upcoming configurations.

Plots of estimated available observing hours as a function of LST for the D and C configurations in semester 2021A are shown below. In these plots, engineering, maintenance, and testing cause the solid (upper) line to be less than the total number of LST days in each configuration; such activities occur predominantly during daytime. 

21A-D config

21A-C config

 

Estimated science time available per LST hour is shown by the solid (upper) black line for all frequencies, the dashed (middle) line for K-band conditions, and dotted (lower) line for Q-band conditions. The colored bars show pre-committed time from previous proposal deadlines, where green represents priority A, yellow priority B, and red priority C. For the net available time in either configuration per LST hour subtract the bars of the pre-committed time from the black curve. 

We note that for the last few years the VLA has seen consistently lower demand for LSTs in the range of approximately 19 to 03 hours in almost all configurations. While we do not know for sure if this will be true for the D and C configurations in the 2021A observing semester, we encourage our users to submit proposals for time in that range. Furthermore, the above does not reflect the possible impact of a VLA extra-large proposal that is currently in its final review stage. If approved, about 250 hours of time will be allocated in the LST range 19 to 06 hours in the C configuration. There will not be an impact from this proposal on the available time in D configuration in the 2021A semester.


Observing Capabilities for Semester 2021A

For the 2021A semester the General Observing (GO) capabilities are given in the Offered VLA Capabilities during the Next Semester section of the Observational Status Summary (OSS) and are summarized in the following table.  Several additional capabilities are available to proposers through the Shared Risk Observing (SRO) and Resident Shared Risk Observing (RSRO) programs, as described below.

CapabilityDescription

8-bit samplers

Standard default setups for:

    • 2 GHz bandwidth continuum observations at S/C/X/Ku/K/Ka/Q bands (16 × 128 MHz subbands)
    • 1 GHz bandwidth continuum observations at L-band (16 × 64 MHz subbands)
      • 256 MHz bandwidth continuum observations at P-band (16 × 16 MHz subbands)

      Flexible setups for spectroscopy, using two, independently tunable, 1 GHz baseband pairs, each of which can be split into up to 32 flexibly tunable subbands

      Single, dual, and full polarization products

      3-bit samplers

      Standard default setups for:

        • 8 GHz bandwidth continuum observations at K/Ka/Q-bands
        • 6 GHz bandwidth at Ku-band
        • 4 GHz bandwidth at C/X-bands

      Flexible setups for spectroscopy, using four, independently tunable, 2 GHz baseband pairs, each of which can be split into up to 16 flexibly tunable subbands

      Single, dual, and full polarization products

      Mixed 3-bit and 8-bit samplers

      Allows more flexibility for simultaneous continuum and high-resolution spectral line observing

      Subarrays

      Up to 3 independent subarrays using standard 8-bit continuum setups (only one 8-bit continuum setup per subarray).

      Y27 or Y1 for VLBI

      VLA Phased Array (Y27) or single VLA antenna (Y1) for VLBI. See the VLBA Call for Proposals for more details.

      Solar observing

      All solar observing except the L-band reverse-coupled system

      On-The-Fly Mosaicing (OTF)

      P-, L-, S-, and C-bands only; no subarrays

      Pulsar

      Phase-binned and coherent-dedispersion (YUPPI) pulsar observing, except 4-band YUPPI

      Frequency averaging

      Frequency averaging in the correlator by a factor of two or four (only available for single subarray and non-OTF observations)

      Both single pointing and mosaics with discrete, multiple field centers are supported. Data rates up to 60 MB/s (216 GB/hour) are considered GO. Correlator integration time limits per band and per array configuration also apply as described in the OSS. The data rate and total data volume required by a proposal will be a consideration in its technical evaluation.

      There are some limitations on frequency settings and tuning ranges, especially at Ka-band; please consult the OSS for further details. Additionally, the Exposure Calculator has been updated and other special tools are available to assist users with the development of correlator setups for the proposal deadline (see VLA Proposal Submission Guidelines). All antennas employ electronics and receiver systems that provide continuous frequency coverage from 1–50 GHz in the following observing bands: 1–2 GHz (L-band); 2–4 GHz (S-band); 4–8 GHz (C-band); 8–12 GHz (X-band); 12–18 GHz (Ku-band); 18–26.5 GHz (K-band); 26.5–40 GHz (Ka-band); and 40–50 GHz (Q-band).  In addition to these, all VLA antennas are equipped with 224-480 MHz (P-band) and 54-86 MHz (4-band) receivers near the prime focus.

      We continue to offer shared risk programs to our user community for those who would like to push the capabilities of the VLA beyond those offered for general use.

      VLA Shared Risk Observing

      The VLA Shared Risk Observing (SRO) program allows users access to capabilities that can be set up via the Observation Preparation Tool (OPT) and run through the dynamic scheduler without intervention, but are not as well tested as GO capabilities. Data rates higher than 60 MB/s (216 GB/hour) and up to 100 MB/s (360 GB/hour) are considered SRO. The following capabilities are offered under the SRO program during the 2021A semester:

        • On-the-Fly (OTF) mosaicing for X-, Ku-, K-, Ka-, and Q-bands (used when each pointing on the sky is no more than a few seconds), but not using subarrays;
        • 4-band (58-84 MHz) Stokes I continuum observations; and
        • Dual 4/P-band Stokes I continuum observations.

      See the VLA Proposal Submission Guidelines web page for information about tools and other advice on proposing for Shared Risk observing capabilities.

      VLA Resident Shared Risk Observing

      The VLA Resident Shared Risk Observing (RSRO) program provides access to extended capabilities of the VLA that require additional testing. This access is provided in exchange for a period of residence to help commission those capabilities. Examples of capabilities that would fall under the RSRO program in the 2021A semester include:

        • correlator dump times shorter than 50 msec, including integration times as short as 5 msec for transient detection;
        • data rates above 100 MB/s;
        • recirculation beyond a factor of 64 in the correlator;
        • 4-band (54-86 MHz) polarization;
        • 4-band (54-86 MHz) coherent-dedispersion (YUPPI) pulsar observing;
        • more than 3 subarrays, or subarrays with the 3-bit system;
        • complex phased array observations (e.g., pulsar and complex VLBI observing modes);
        • Frequency averaging by more than a factor of 4.

      A detailed description of the VLA RSRO program is available at the VLA Proposal Submission Guidelines web page.

      Commensal Observing Systems at the VLA

      There are two commensal systems on the VLA that may take data at the same time as your proposed observation.  The first is the VLITE system, which will take data at P-band during regular observations that use bands other than P-band. The VLITE system is deployed on up to eighteen VLA antennas. Observers wishing to gain access to the commensal VLITE data taken during their VLA observations should follow the instructions on the VLITE web page for doing so.  The second is the realfast system, which takes data at very fast dump rates in an effort to detect Fast Radio Bursts (FRBs). This system is fully commissioned for observing at L- through X-bands.

      Proposal and Observation Preparation

      Proposal preparation and submission are via the Proposal Submission Tool (PST) at NRAO Interactive Services. Use of the PST requires registration in the NRAO User Database. There are various tools and documentation to help users in this process. Descriptions of all updated documentation and tools, along with an outline of the steps required to write a proposal, are available at the Guide to Proposing for the VLA web page.

      When constructing sessions in the PST, proposers should be cognizant of their use by the Time Allocation Committee (TAC). Specifically taking into account the time available as a function of LST, software will assign an initial scheduling priority to each session in each proposal, which can be modified by the TAC if they desire. The assigned scheduling priority will depend on the linear-rank score of the proposal from its scientific review, the LSTs involved in the session (daytime is harder to accommodate than nighttime, for instance), the predicted atmospheric conditions for observing over that LST range at the time of year of the configuration, the total time requested in the session, and the competition from other proposals requesting time at similar LSTs. Please see this description for guidance on how to set up sessions in the PST, and this document for a complete description of the VLA Prioritizer (the software that generates the initial scheduling priorities for all sessions that are subsequently used by the TAC to derive the final priorities).

      All approved VLA observations are set up using the Observation Preparation Tool (OPT). Most, if not all, projects will be observed dynamically; users must either submit their scheduling blocks before the start of the configuration or contact the VLA Scheduler (schedsoc@nrao.edu) before that date to avoid a reduction in scheduling priority. Early submission also maximizes the opportunity of them being observed and helps us to schedule the VLA most efficiently. Advice on the optimal length of scheduling blocks and other useful information may be found at the Observing FAQ web page.

      Information about VLA capabilities, proposal preparation and submission, observing strategies, and calibration overhead can be found in the VLA Observational Status Summary, at the Guide to Proposing for the VLA, and at the Guide to Observing with the VLA. Answers to Frequently Asked Questions are contained in these proposing and observing guides. Questions may also be directed to the NRAO Helpdesk.