Uncle Rod's Astro Blog

With darkness arriving, it was time to do the VX’s goto and polar alignments. I was not planning on guiding—didn’t figger I’d need to at  less than 400mm of focal length—so I wanted to be careful with polar alignment. I did all 4 calibration stars in hopes of getting as close to the pole as possible during the All Star Polar Alignment procedure (which depends on the quality of your goto alignment), slewed to Diphda, ran the polar alignment routine on that star, redid the 2+4 alignment just be on the safe side goto-wise, and declared myself ready to go.

Well, I’d be ready once the Canon 60D was on the scope. Taking care of that was simple: screwed an EOS T-ring onto a standard SCT camera adapter, attached that to the Canon in lieu of a lens, and screwed the whole shebang onto the Patriot’s SCT rear port via the prime focus adapter’s threaded ring. Different for a refractor, but the SCT adapter does provide a very secure mounting for a camera.

Next was focusing. I like to do rough focus on a bright star, so I slewed the scope over to Aldebaran, which was not too far from the comet on this night. I hooked the Canon to the Toshiba laptop using the nice, long tether cable Miss Dorothy got me for Christmas, and ran Nebulosity 3. When Neb was going, I turned on the 60D, selected the camera in the program’s menu, and dialed in an exposure of .5 second. I then mashed “frame and focus,” and tweaked focus until the orange star was as small as I could get it. When it was, dimmer field stars began to pop out, and I continued adjusting the Patriot’s Crayford till they were as small as possible.

That is still not good enough. When I was done with rough focusing, I pushed the “Fine Focus” button. Neb then instructs you to click on a (non-saturated) field star. When you do so, the zoomed-in star is placed in a small window and you are presented with two sets of numbers, “Max,” and “HFR,” (half-flux radius). I mainly just watch HFR, and focus till it is as small as it gets (Max will then be as large as it will get). That’s all it takes. I never use a Bahtinov mask and don’t pine for an autofocus system.

Rubber meets road time. I navigated the dadgum NexStar Plus’ menus till I got to “Goto R.A. Dec,” and entered the first coordinate pair on the list I’d printed from Starry Night. The motors hummed and stopped, I upped the exposure to 1-second, hit frame and focus again to make the cam take multiple exposures, and saw…nuttin’ honey.

Which was surprising. One thing you can say about the VX is that her gotos are always dead-on after a decent alignment. All over the sky. Still, the comet was in a spot that’s difficult for most goto systems, approaching zenith. I had another suspicion as to what the problem was, howsomeever. A look at my list of R.A.s and decs showed the values I’d used were for an hour from now. Was the comet moving fast enough that it would be in a significantly different position in an hour? Mebbe so.

I ran back inside to my office, generated a fresh ephemeris for the current time, scrawled the figures on a scrap of paper, scurried back outside, and punched them into the HC. Ahhh! There he was, almost dead center in the frame. Bright little feller. And not really so little, either. In a half second exposure the head/coma was surprisingly large. Time to get the picnic underway.

What I most like about Nebulosity is that once I get it running I don’t have to worry about it. It is very reliable and has never messed up an imaging sequence or crashed. I told it to give me 30 exposures with a duration of 30-seconds each. I intended to start with short ones in case the comet was moving real fast, and up them to a minute or two minutes in the next series. I wandered back inside to the den for a little TV and let Neb do its thing.

Unk ain’t no dummy. Not a complete one, anyhow. Even given the reliability of Nebulosity and the VX mount, I was wary. Every astrophotographer has a couple of friends, Mr. Murphy and Mr. Finagle. If something bad can happen, you can darned well bet it will. So, after about 10-minutes I stepped out onto the deck during a commercial break in—what else?—Finding Bigfoot to see what was up.

At first it ‘peared all was well. Another frame clicked off just as I approached the Satellite laptop. But what the hail was with the background? It was a nasty-looking reddish-brown. “Hmmm…that usually means…GULLDERNIT!” Yep, a look up showed the formerly clear, if hazy, sky being rapidly covered in clouds. I’d got only nine thirty second exposures, not nearly enough to show the tail well, I feared. So, you can bet I was amazed and happy the next morning to see I actually did capture the tail, if barely. Standing there looking up at the clouds that night, however, Unk was right put out. Nuthin’ for it but to pull the accursed Big Switch and go in search of the Rebel Yell bottle.

There was something different when it came to pulling that switch on this evening. Looking at the ten-day weather forecast on TWC, it appeared we might get a string of maybe four-five nights of acceptable, if not great, conditions. That being the case, I chose to cover the scope with my Desert Storm cover instead of tearing the rig down, and I chose to hibernate the scope rather than just turn her off.

The NexStar HCs, both the Plus and the older models have a hibernate feature that allows you to shut down the scope and preserve its alignment. The current alignment values are stored in non-volatile memory, and as long as you don't physically move the mount, no alignment is required when you wake it up the next evening. I followed the instructions, placing the scope in my desired position (I moved her with the HC until she was on the R.A. and dec marks), hit Enter, and turned off the power when the hand control told me to. I’d never used this feature with the VX before and was interested to see how well it would work.

It worked very well, even if that was about the only thing that did Saturday evening. When darkness fell, I went out and turned the mount on. The HC displayed the time from the mount’s Real Time Clock and enquired as to whether that was OK. Little fast, but close enough for government work, so I hit enter. The HC then responded with “VX Ready.” We’d see about that-there. I decided a focus check was in order and issued a goto command for Aldebaran. When the VX stopped, the star was dang near dead-center on Nebulosity’s display.

Otherwise? Well, the night wasn’t bad; it just wasn’t good. Tracking in two-minute subs was fine.  The computer and Nebulosity behaved well. But the sky was just not there. There were no clouds, just real, real poor transparency. I could tell by the look of the raw frames onscreen that is wasn’t going to be much of a night. Nevertheless, Unk forged on. It was marginally clear, and who knew when that would happen again? When I had had enough frustration I hibernated the VX again.

Almost unbelievably, campers, the sky held on for yet another night. In fact, Sunday was noticeably better than Saturday as far as transparency. However, I suspected that the comet, which was really taking a powder now, might be a little dimmer on this evening. Hokay. What say we speed things up with a focal ratio even faster than f/6? How to do that? Well, the Patriot had an SCT back; what if I screwed a standard SCT focal reducer onto it? That would get me really fast optics and might the corrector aspect of the reducer/corrector flatten the refractor’s field? I decided to find out.

When Sol was out of the way, I screwed the reducer/corrector onto my pretty little Patriot, attached the Canon and prime focus adapter to that, and woke up the mount. As before, goto was perfect following hibernation. When the motors stopped, a big blob I knew was Alpha Tauri was once again close to the center of the screen. I started rough focusing, and began moving the scope’s drawtube in. I knew it would be a close thing, and had removed the prime focus adapter’s extension tube. Close, but no cigar, y’all. I needed at least an inch more in-travel.

Oh, well, good idea even if it didn’t work, I reckoned. I continued with the fleeing Lovejoy anyhow, doing 2-minute subs all evening. When the fuzzball crossed the Meridian, I began to keep a close watch on the camera’s position with regard to the tripod’s legs. When it got a mite close to one, I stopped the exposure sequence, and issued a new goto command with the current R.A. and declination values of the comet. When I did that, mount did what us GEM lovers call a “meridian flip;” it moved to position the scope on the east side of the mount to track the comet as it descended into the west.

The photos I got on this night were my best I’d, but it was still disappointing that I couldn’t quite make the tail pop out like folks shooting from darker locations could. Well, what if I tried a dadgum light pollution filter? I’m not big on filters for astrophotography, since they change color balance and dim the images. Still, a mild filter like the 30 buck Zhumell imaging filter I’d picked up last fall might help a little. It had undeniably improved my shots of nebulae from the PSAS dark site.

The problem was how to attach the dadgum thing to the camera. As above, the SCT prime focus adapter makes no provision for filter use. There was no place to screw one on.  Well, dern. Howsomeever, I also had a 1.25-inch filter, a similarly mild one from Orion, I’ve owned for a couple of years and used with my Mallincams occasionally. What if I attached that to the nose-piece of an inch-and-a-quarter non-SCT prime focus adapter and inserted that into a 2-inch/1.25-inch adapter in the Patriot’s rear port? I rounded up my Orion prime focus adapter. Its 1.25-inch nosepiece would accommodate a filter, but its body was clearly too long to allow me to reach focus. Dangit.

Hmmm… Digging deep, way down deep, into the old Junque Box, I fished out a Meade prime focus adapter I’d had since the 1980s. It has a 1.25-inch filter-threaded nosepiece and a body at least an inch shorter than the Orion’s. Comparing the SCT adapter and the Meade side by side, it looked like the Meade might be just short enough to work.

Monday was MLK Day, so I didn’t have to teach my classes at the University and was able to hit the backyard for, amazingly, a fourth straight night of astrophotography. Following another successful awakening of the mount (I am loving that hibernation feature, if’n you can’t tell), I started focusing. Moved the focuser in an inch. Aldebaran was still a blob, but a smaller blob. Still plenty of in-travel. ‘Nother half inch. Smaller still, but still way out. I was beginnin’ to sweat now, with about half an inch of travel remaining. Little bit more and, bingo. With about ¼-inch left, we were close to focus, and I was able to tweak it in with Fine Focus. In the end, I had about 1/8-inch to spare.

How’d the filter do? It improved Lovejoy’s tail a little. Given that the comet was now slightly dimmer than it had been when I began the run on Friday, I believe it helped significantly. When I’d fired off the last shot of Lovejoy I wasn’t quite ready to hunt up the whiskey, however. M42 was above the trees in the darkest part of the sky, and I couldn’t resist shooting old faithful.

I knew the results wouldn’t be great. You don’t get “great” with a sky as bright as mine, but what came from my messing around with Photoshop and Lightroom was good enough to please old Unk, as you can see here.  The “messing around” consisted of significant processing to get rid of (most of) the nasty light-pollution gradients and some artifacts caused by the filter (I think).

So that was the end for the comet, more or less. I did get out with my C102 and do a little visual looking (finally) as the evil gray and white fluffy things rolled back in Tuesday and that was purty much the denouement. That was hardly the end for the Patriot, however. It will be my scope of choice for wide-field vistas from this time forward, I think. The little thing is just so EASY, muchachos. Easy to set up, easy to use. She’s solidly built and light, and even if I didn’t like her fancy raiment, I’d like that, muchachos.

Next Time: More My Favorite Fuzzies…