One of the things I like about working at Kitt Peak National Observatory is that my job has a lot of variety. I contribute to important science projects and I help with engineering that helps to achieve the observatory’s science goals. Sometimes I act as something of a councilor, commiserating with observers during inclement weather. I even get to employ my writing skills when documenting tasks for our operations manuals.
This past week, one project I helped with was testing a new finder scope for the 4-meter telescope. Finder scopes don’t often get a lot of attention, but they serve an important function. Telescopes often give you such an enhanced view of the sky that it’s difficult to know exactly where you’re pointed. A finder scope is simply a smaller telescope mounted to the bigger telescope that lets you see a wide swath of the sky and confirm that you’re looking where you think you should be. Even my 90mm telescope has a finder scope on it. It’s the little tiny telescope piggybacked on the bigger telescope.
Here’s a view of the finder scope mounted to the top of the 4-meter telescope at Kitt Peak. Note that it’s basically just a camera lens directing light into a little digital camera.
This will prove vitally important when we start using the DESI spectrograph on the 4-meter. With that instrument, we’ll have fibers directing most of the light to spectrographs instead of a direct view of the sky. We will have a guide camera, but if, for some reason, the telescope pointing is off, it may be hard to find where we are. Because of that, it’s nice to have a widefield view of the sky. The images taken with the finder scope won’t be the ones you see in most magazines, but still, we played a little while testing and took a nice photo of the Andromeda Galaxy, M31 and it’s companion, M110.
We also took an image of the Pleiades, which is a nearby open cluster visible with the naked eye. These are young stars with nebulosity still around them. Even with our small telescope, it only took 30 seconds to see some of the nebular clouds.
Speaking of variety, another job I did this week was help an astronomer monitor a Jupiter-sized planet as it transited its star. This planet had a rotational period of only 1.6 days and we monitored it with the WIYN telescope at the same time the Kepler Space Telescope monitored it. Having two telescopes monitoring it at the same time allows for scientists to confirm and double check results. The system we were watching is very much like system I wrote about in the anthology A Kepler’s Dozen. You can learn more about the book and find places to order at http://www.davidleesummers.com/Keplers-Dozen.html. The book gives a unique look at the types of worlds discovered by the Kepler Space Telescope. My co-editor on the project was Dr. Steve B. Howell, head of the Astronomy and Astrobiology Division at NASA’s Ames Research Center.