The sensitivity of most cameras as a function of wavelength (color) is different from the response of the human eye. The filters used for creating color composites also have their own characteristics, as do the telescope optics. Although ”perfect” color rendition is an elusive if not impossible goal (all individuals see colors slightly differently), it is straightforward to get ”good” color balance with simple weightings.
The Color Balance command adjusts the three color planes so that proper white balance can be achieved. The first step is to remove any background cast by clicking the Auto Background button (manual adjustment is also possible). The next step is to set the scaling factors for the red, green, and blue filters. The simplest way to do this is identify a white object in the image, and then click on it.
Usually you will find a number of stars in an image that are ”white enough” to use as an accurate reference for color balance. For better accuracy, it is best to calibrate using a source known to be pure white. Stars vary in color according to their spectral class, but the Sun is considered to be white. Therefore any star of the same G2V spectral class (or close to it) should also be white. The following table (ref. Berry et.al., Sky & Telescope Magazine, December 1998) lists a number of these ”solar analog” stars:
|
RA |
Dec |
Mag |
Class |
Name |
|
00h 18m 40s |
-08d 03m 04s |
6.467 |
G3 |
SAO128690 |
|
00h 22m 52s |
-12d 12m 34s |
6.39 |
G2.5 |
9 Cet (SAO147237) |
|
01h 41m 47s |
+42d 36m 48s |
4.961 |
SAO37434 |
|
|
01h 53m 18s |
+00d 22m 25s |
9.734 |
SAO110202 |
|
|
03h 19m 02s |
-02d 50m 36s |
7.052 |
G1.5 |
SAO130415 |
|
04h 26m 40s |
+16d 44m 49s |
8.10 |
G2 |
Hyades vB 64 (SAO93936) |
|
06h 24m 44s |
-28d 46m 48s |
G2 |
SAO171711 |
|
|
08h 54m 18s |
-05d 26m 04s |
6.008 |
G2 |
SAO136389 |
|
10h 01m 01s |
+31d 55m 25s |
5.374 |
G3 |
20 LMi (SAO61808) |
|
11h 18m 11s |
+31d 31m 45s |
4.85 |
G2 |
Xi UMa B (SAO62484) |
|
13h 38m 42s |
-01d 14m 14s |
9.975 |
G5 |
105-56 (SAO139464) |
|
15h 37m 18s |
-00d 09m 50s |
8.433 |
G3 |
107-684 (SAO121093) |
|
15h 44m 02s |
+02d 30m 54s |
5.868 |
G2.5 |
23 psi Ser (SAO121152) |
|
15h 53m 12s |
+13d 11m 48s |
6.084 |
G1 |
39 Ser (SAO101792) |
|
16h 07m 04s |
-14d 04m 16s |
6.314 |
G2 |
SAO159706 |
|
16h 15m 37s |
-08d 22m 10s |
5.494 |
G2 |
18 Sco (SAO141066) |
|
19h 41m 49s |
+50d 31m 31s |
5.976 |
G1.5 |
16 Cyg A (SAO31898) |
|
19h 41m 52s |
+50d 31m 03s |
6.237 |
G3 |
16 Cyg B (SAO31899) |
|
20h 43m 12s |
+00d 26m 15s |
9.977 |
G2 |
SAO126133 |
|
21h 42m 27s |
+00d 26m 20s |
9.074 |
G5 |
SAO127005 |
|
23h 12m 39s |
+02d 41m 10s |
7.708 |
G1 |
HD219018 (SAO128034) |
To calibrate your exposures, take an image of one of these stars, taking care to ensure that it is at a high altitude to avoid extinction. You can then use the Color Balance command to set the proper scaling. Use the auto background to remove any sky background color, and then use the Click on White Area to Set Scaling feature. For more control, you can use the Information Window to determine the intensity of the star in red, green, and blue, and calculate the necessary scaling values.
Another approach is to use a photographic grey scale card (available from Kodak) and sunlight. Arrange for your telescope, preferably shielded from sunlight, to image a grey card placed in sunlight. It will probably be necessary to stop down the instrument to reduce the light levels sufficiently to take an exposure without saturating.
The White Balance command is a simplified version of the same command, which allows you to select a region of the image by creating a drag rectangle with the mouse. It is more suited for lab imaging applications, e.g. calibrating microscope imaging, where a large white area can be imaged.
Once you get your color balance parameters, you can enter them into the Stack, Convert Color, or Combine Color command, so they are applied automatically on new images.
You can also adjust color balance using the Color Adjust command. This command allows you to see the image with various adjustments applied, and then pick the image with the best appearance.