A Hubble Source Catalog (HSC) Use Case

Example #1: Using the Discovery Portal to Query the HSC

(Stellar Photometry in M31 - Brown et al. 2009)


Reference: "Deep Optical Photometry of Six Fields in the Andromeda Galaxy" - Brown et al. (2009) ApJS, 184, 152


The MAST Discovery Portal is the primary tool for accessing the HSC. For larger and more detailed queries, HSC CasJobs may be the more appropriate choice. The HSC Homepage is also available for some specific queries.

GOAL: This tutorial shows the use of the MAST Discovery Portal for accessing the Hubble Source Catalog.

SCIENCE CASE: Photometry in Brown's M31 (Proposal ID=10265) dataset.


Step 1 - Enter the MAST Discovery Portal. Use the dropdown menu under Select a collection: (blue) to find the Hubble Source Catalog (HSC), and then enter the text "00:49:08.09 42:44:55.0 r=0.5m" (just cut and paste if you like) into the Search box (blue). Click in the box to retrieve objects within a 0.5 minute of arc radius of the coordinates.

Next, scroll down the selection Filters (in the left column) to find NumImages and move the slide bar to change the range to 20 to 30 (green). This controls the number of images required for a match, and can therefore be used to remove artifacts, most of which are residual cosmic rays that show up with NumImages = 1. Note that this reduces the number of objects from 1092 to 514 (green), and that now all of the objects in the List of Objects have NumImages > 20 (green).

Step 2 - Play with the AstroView window. Try different kinds of images (e.g., PANSTARRS, DSS, GALEX, SDSS) by clicking the gear in the bottom right. It is also entertaining to zoom way out (blue) to see that, as implied by the Target Name in the Table View, we really are way out in the disk of M31.
Step 3 - Make a new V-I colum. Click on the Create Arithmetic Column icon (blue) and fill in the fields to define V-I (green), which then appears as the last column in the List of Objects. V-I will also then show up in the selection Filters field on the far left. Note the relatively good agreement in the A_F606W and W3_F606W values (orange).

Step 4 - Make a V-I vs. A_F814W color-magnitude plot. Click on the View Charts for these Data icon (blue) and use the drop-down menu to designate the X and Y parameters (green). Then click on the Update Series button (green) to make the plot. Use the Reverse axis to flip the Y-axis.

Now click the check box in the upper left to highlight the object in List of Objects (yellow). This will automatically highlight the same object in AstroView (yellow) and in the plot. (yellow). You can instead click on a point in AstroView, or the plot, to highlight the corresponding data in the other screens as well.

Finally, click on the Load Detailed Results for this Match icon (orange) under Actions. This will bring up the HSC Detailed catalog.

Step 5 - Overlay the HSC on an HLA image using Astroview, and then also using the Interactive Display. WE STRONGLY URGE USERS TO ALWAYS LOOK AT THE HSC OVERLAYED ON A HUBBLE IMAGE IN ORDER TO CHECK FOR ARTIFACTS!

First, click on the Toggle Overlay Image icon (blue). This will bring up the image in AstroView. While you will not be able to change the contrast of the image, unlike the HLA Interactive Display, it does have the advantage of allowing you to select different subsets of the data using the selection Filters on the left.

Now click on the cutout image itself (green). This will bring up the HLA Interactive Display. Click advanced contrast controls, Apply astrometric shift (the default) , Require NumImages > 10, and then the HSC button (orange) to overlay the HSC on this particular image. Using too small a value of NumImages (e.g., > 0) can result in the inclusion of residual cosmic rays. Determining the best value for NumImages is oftern one of the most important decisions you will have when using the HSC.

Click on the GAIA checkbox and note the 4 GAIA sources in the field, all nicely lined up with the HSC sources.

Click on the nearest HSC object to the center (yellow) to reveal the HSC summary form information for MatchID = 42687906. Scroll to reveal the other information for this object. The object has 29 detections with a mean A_F606W = 25.554 +/-0.061 (using 12 repeat measurements) and W3_F606W = 25.578 (no value of sigma since no repeat measurements). These are the same as what we found in Step 3. The Normalized Concentration Index (CI; difference in magnitude between 0.05 and 0.15 arcsec radius measurement) has a value CI = 1.027, which strongly suggests this is a star (i.e., near a value of 1.00).

Step 6 - Download the data for further analysis. Return to the HSC Summary form by clicking on the appropriate home page (blue). and then click on the Export the Data to a Local File icon (orange). Fill in the File Name: box (we recommend you put "version2" in the name and take a screenshot of the page for future reference), select the Format: (orange), and then click the Export button to download the table to a local file (yellow).

Step 7 - Compare with the Brown et. al. (2009) photometry. If you would like to make detailed comparisons yourself you will need to download the Brown et al. (2009) catalog via the MAST High Level Science Product (HLSP) webpage http://archive.stsci.edu/prepds/andromeda/. Below we provide a brief summary of the results; more details are available in Whitmore et al. (2016).

The HSC uses the ABmag system while Brown et al. (2009) use STmag. The conversions, as provided in Brown et al (2009), are:

 ABmag_F606W = STmag_F606W - 0.169    and    ABmag_F814W = STmag_F814W - 0.840

The HSC magaper2 values use an aperture with radius R = 3 pixels while Brown et al. correct to total magnitudes. To compare, we add an additional correction of 2.5log[Encircled Energy] = 2.5log[0.796] = -0.248 for F606W (similarly, -0.292 for F814W), where the values for Encircled Energy come from (Sirianni et al. 2005, Table 3.)

Hence, converting from the HSC photometry system to the Brown system requires:

      A_606W = 25.554  (HSC Magaper2 value)

                 + 0.169   (ABMAG to STMAG)
                  - 0.248   (aperture correction)
                ----------
                  25.475   compared with Brown's value of 25.490

For F814W, the HSC value is 25.627 and Brown's value is 25.600

Here are plots (from version 1) comparing the entire dataset. See Whitmore et al. (2016) for more details.

Step 8 - Compare the total CMD (i.e plot of F606W-F814W vs. F814W).

The following two plots show the HSC data (version 1) in blue and the Brown et al. data in red. The second figure includes an offset to enhance the visual comparison. We note that even the fine structure in the "red clump" (A_F814W~24.8) is very similar.

At the brighter magnitudes the comparison is quite good. However, the Brown et. al. data is deeper than the HSC by approximately 3 magnitudes, as expected since this comes from a mosaic where all 28 visits are co-added together, compared to the HSC where the measurements are from individual visits. Version 2 goes about 0.7 magnitudes deeper than version 1 in this particular field, as you can see by comparing the diagram in Step 4 with the blue points in the above plot. More dramatic improvements in depth will be made in version 3, when mosaic images will be used for the detection images.

Typical Hubble observers employ just one or two visits, hence the difference between the HSC and coadded mosaics is much smaller. However, HSC users should be aware that it is often possible to go deeper, or to obtain more precise measurements than possible from the general-purpose catalogs produced by the HLA using only the visit-based source lists.