M100 Band3: Difference between revisions

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=== Morita array (ACA) 7-m Data ===
=== Morita array (ACA) 7-m Data ===


ALMA Science Verification data at Band 3 was taken for M100 with the ACA on 17-18 March, 14 April, and 11 May, 2013. The observations consisted of a 23 pointing mosaic centered at RA=12:22:54.3, Dec=+15:48:51.4 and used a spectral setup with either two or four FDM (frequency domain mode) windows with 4080 channels each. The native channel width is 488.281 kHz, or 1.27 km/s, and one of the windows is centered at the CO (1-0) line with a rest frequency of 115.271 GHz in ALMA Band 3; this setup mirrors the 12m observations. There are six datasets, comprising a total of 188.4 minutes on source. The integration interval for each visibility is 10.1 seconds.
ALMA Science Verification data at Band 3 was taken for M100 with the ACA on 17-18 March, 14 April, and 11 May, 2013. The observations consisted of a 23 pointing mosaic centered at RA=12:22:54.3, Dec=+15:48:51.4 and used a spectral setup with either two or four spectral windows with 4080 channels each. The native channel width is 488.281 kHz, or 1.27 km/s, and one of the windows is centered at the CO (1-0) line with a rest frequency of 115.271 GHz in ALMA Band 3; this setup mirrors the 12m observations. There are six datasets, comprising a total of 188.4 minutes on source. The integration interval for each visibility is 10.1 seconds.


The names of the six datasets are as follows:
The names of the six datasets are as follows:

Revision as of 22:24, 26 May 2015

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M100 Introduction Page.

Science Target Overview

M100 (NGC 4321; RA 12h 22m 54.8s, Dec +15 49' 19") is a nearby (~16 Mpc) 'grand-design' barred spiral galaxy in the Virgo cluster. It has long spiral arms dominating its optical disk and an abundance of molecular gas in its center. It has a relatively face-on inclination of ~30 degrees.

<figure id="M100_NASA.jpg">

M100 as seen in the infrared by Spitzer.

</figure>

In the 1990s, M100 was mapped in CO (1-0) at an angular resolution of 6" using the Berkeley-Illinois-Maryland Association (BIMA) millimeter interferometer as part of the BIMA SONG survey (Regan et al. 2001; Helfer et al. 2003; Sheth et al. 2002). Using the Nobeyama mm-wave Array (NMA), the central 1' was mapped by Sakamoto et al. (1995, 1999) at 2.5" resolution. Its nucleus has also been mapped in CO using the IRAM interferometer (Garcia-Burillo et al. 1998). In this CASAguide, CO (1-0) emission is mapped on several different angular scales, corresponding to molecular gas structures with different physical size scales, and combined into a single image.

ALMA Data Overview

12-m Data

ALMA Science Verification data at Band 3 was taken for M100 with the ALMA 12-m array on 10 August and 10 September, 2011. Note that the calibration presented in this Guide is a new calibration of the same data that were released previously, and so the data reduction path has been updated to current best practices and starts from the raw data files called ASDMs (ALMA Science Data Model). Do not use the previously released uncalibrated or calibrated data.

The observations consisted of a 47 pointing mosaic centered at RA=12:22:54.6, Dec=+15:48:56.5 and used a spectral setup with four FDM (frequency domain mode) windows with 3840 channels each. The native channel width is 488.281 kHz, or 1.27 km/s, and one of the windows is centered at the CO (1-0) line with a rest frequency of 115.271 GHz in ALMA Band 3. There are three 12m datasets, comprising a total of 124.3 minutes on source. The integration interval for each visibility is 6.05 seconds.

The names of the three datasets are as follows:

  • uid___A002_X273b43_X146
  • uid___A002_X2a5c2f_X220
  • uid___A002_X2a5c2f_X54

In these observations, Titan is used at the amplitude calibrator, 3C273 is used as the bandpass calibrator, and J1224+213 is used as the gain calibrator. In contrast to the first calibration presented for this data, all calibration is done in CASA 4.3 and the gain calibration tables are applied to the data and the visibility weights in the final applycal step (with calwt=T). With these changes, each visibility is weighted appropriately for the final data combination.

Morita array (ACA) 7-m Data

ALMA Science Verification data at Band 3 was taken for M100 with the ACA on 17-18 March, 14 April, and 11 May, 2013. The observations consisted of a 23 pointing mosaic centered at RA=12:22:54.3, Dec=+15:48:51.4 and used a spectral setup with either two or four spectral windows with 4080 channels each. The native channel width is 488.281 kHz, or 1.27 km/s, and one of the windows is centered at the CO (1-0) line with a rest frequency of 115.271 GHz in ALMA Band 3; this setup mirrors the 12m observations. There are six datasets, comprising a total of 188.4 minutes on source. The integration interval for each visibility is 10.1 seconds.

The names of the six datasets are as follows:

  • uid___A002_X5e971a_X124
  • uid___A002_X5e971a_X2e7
  • uid___A002_X5e9ff1_X3f3
  • uid___A002_X5e9ff1_X5b3
  • uid___A002_X60b415_X44
  • uid___A002_X62f759_X4eb

In these observations, 3C273 is used as the amplitude and bandpass calibrator, and J1215+1654 is used as the gain calibrator. For the first five executions, the flux calibration is set using au.getALMAFluxForMS, which checks the ALMA measurements of calibrators to define the appropriate flux for a calibrator as a function of frequency and time of observation. For the final dataset (_X4eb), the flux of 3C273 was observed to change rapidly by both ALMA and CARMA, which is not reflected in the observations in the calibrator database, and so a best estimate has been made. In the 7m datasets, careful flagging of the Tsys tables was necessary in several cases, and the antenna CM01 had to be removed from almost all observations as it was not locked. Standard calibration scripts are used in the calibration of this data, and all extra flagging commands can be found within those files. Finally, all calibration is done using CASA 4.3, and the gain calibration tables are applied to the data and the visibility weights in the final applycal step (with calwt=T). With these changes, each visibility is weighted appropriately for the final data combination.

Note that in the 7m data, there is a weak continuum detection, but it is too weak to contaminate the line emission (the peak of the continuum detection is well less than the rms in a single line channel); the continuum is not even detected in the 12m data. Therefore in the combined data, no continuum subtraction is performed.

Single-Dish Data

ALMA Science Verification Single-Dish data at Band 3 was taken for M100 on 1, 5, 7, and 17 July, 2014 with the Total-Power array which consisted of 2 or 3 12-m antennas and the ACA correlator. The rectangular area of 202" x 226" (RA x Dec) centered at RA=12:22:54.36, Dec=+15:48:50.6 was mapped using the on-the-fly technique. The frequency setup for the single dish observations mirrors that of the interferometer in that four 2-GHz-wide spectral windows are used, each having 4080 channels. The native channel width is set to 488.281 kHz, and one of the windows is centered at the CO (1-0) line with a rest frequency of 115.271 GHz.

There are four amplitude calibrator datasets (i.e., one per day) and nine science datasets (i.e., two or three per day). The integration interval for each visibility is 0.144 second for the amplitude calibrator and 1.008 seconds for the science datasets. The total time on source (M100) was 172.4 minutes.

Amplitude Calibrator:

  • uid___A002_X85c183_X895 DA61, PM03, PM04
  • uid___A002_X8602fa_Xc3 PM02, PM03, PM04
  • uid___A002_X864236_Xe1 PM03, PM04
  • uid___A002_X86fcfa_X3ae DV10, PM03, PM04

Science:

  • uid___A002_X85c183_X36f DA61, PM03, PM04
  • uid___A002_X85c183_X60b DA61, PM03, PM04
  • uid___A002_X8602fa_X2ab PM02, PM03, PM04
  • uid___A002_X8602fa_X577 PM02, PM03, PM04
  • uid___A002_X864236_X2d4 PM03, PM04
  • uid___A002_X864236_X693 PM03, PM04
  • uid___A002_X86fcfa_Xd9 DV10, PM03, PM04
  • uid___A002_X86fcfa_X664 DV10, PM03, PM04
  • uid___A002_X86fcfa_X96c DV10, PM03, PM04

Acknowledgements and Data Usage

Using the data for publication: The following statement should be included in the acknowledgment of papers using the datasets listed above: “This paper makes use of the following ALMA data: ADS/JAO.ALMA#2011.0.00004.SV . ALMA is a partnership of ESO (representing its member states), NSF (USA) and NINS (Japan), together with NRC (Canada) and NSC and ASIAA (Taiwan), in cooperation with the Republic of Chile. The Joint ALMA Observatory is operated by ESO, AUI/NRAO and NAOJ."

We thank the following people for suggesting M100 for ALMA Science Verification: Preben Grosbol and Catherine Vlahakis.

Obtaining the Data

To download all the data, follow one of the next links:

North America

Europe

East Asia

M100 Data Combination Tutorial

How to Use A CASA Guide

For tips on using CASA and ways CASA can be run, see EVLA_Spectral_Line_Calibration_IRC+10216#How_to_Use_This_casaguide page.

To learn how to extract executable Python scripts from the tutorial, see Extracting_scripts_from_these_tutorials.

Within the guides:

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