Chris Peterson wrote:Nitpicker wrote:Or maybe I'm just suffering from a mounting case of scope envy. My much-loved combination of a handy little 6" alt-az scope and DSLR, allows me to detect stars down to vmag 15.
What is the make and model of your scope? With a wedge (which will probably work pretty well given a light weight mount) I'll bet your setup is good enough to track well for at least 5 minutes. That's long enough that you should be able to match many of the images that appear on APOD. Probably half the amateur images we see here are made with scopes of 6" or less aperture, and 5-minute subs don't require a very high end mount.
I've probably overstated the stability issue with equatorial mounts near the tropics. I am still 27 degrees away from the equator and I'm sure there are loads of people happily using equatorial mounts nearer still to the equator. Given that storage, weight and price considerations are all important to me, I think I'd be inclined towards a GEM over any other kind of equatorial mount.
I have a Celestron 6SE, and as much as I love it, I really doubt the hardware (specifically the gearing) is precise enough to bother with a wedge and deep-as-possible sky photography. It is not typically sold for deep sky photography, although that may have been an early intention, as it has an auto-guiding port (for which I have only a theoretical understanding). Regardless, Celestron has since discontinued the wedge specifically for the 6SE and 8SE (which share the same alt-az mount). Whilst there may be independent commercial reasons for that decision, I suspect it stems from a technical issue. There is a heavy-duty wedge available from Celestron, which I have read can also be used with my scope, but it is a little hard to find in this part of the world, and is thus rather expensive for what it is. And if I had a bigger, heavier scope & mount, I suspect I'd have trouble lifting it and attaching it on such an incline.
As far as I can determine, the two DC servo motors on my alt-az mount (which, in general, both need to run at a variable speed to track a celestial object over longer periods) are set by the controlling software with a speed in increments of 0.25 arcsec/sec. Over time, the resulting analogue-to-digital quantization errors can accumulate to cause tracking errors, the magnitude of which is dependent on the part of the sky being observed. Some of these errors are periodic, some are not, but they are normally quite small. (Perversely, the mathematics of this problem of control engineering is another reason why I have a fondness for alt-az mounts.) However, the tracking errors I have observed in the field, typically swamp the much smaller errors caused by quantization. This suggests to me that the periodic and other errors inherent in the gears (compensation for which the 6/8 SE mount does not support) makes the overall system significantly hardware limited.
With an alt-az mount, one is limited to sub-exposures of about 30 seconds, to avoid field rotation. Again, this is dependent on the part of the sky being observed (avoid zenith and meridian where possible), as well as the FOV. My experience with this scope is that on a typical night, with a moon-size FOV, I will discard about three-quarters of my subs due to unacceptable tracking errors, completely unrelated to field rotation. If I were to instead use an equatorial wedge, so that only one motor would be running (and at a constant speed), I do suspect my success ratio would be a bit better. But I suspect it would be very rare to get acceptable tracking for a 5 minute sub-exposure. I would be most interested to hear from anyone who has had success using a wedge with this mount. I've not heard of anyone.
Anyway, for the time being I've decided to continue with my 30 second subs in alt-az mode. I still have a lot to learn about image stacking and processing, so I should focus on those aspects before forking out more cash on an equatorial system. Thanks for all the input and discussion.
Edit: I may not be 100% correct about my determination of how the in-built software actually controls the motors when tracking. I have assumed it works how the Nexstar Communication Protocol suggests it does. I might not be 100% correct about the exact cause of the more serious tracking errors actually observed, either. But my scope definitely has a nice orange colour.
In reality, the limiting factor for an Alt/Az mount is field rotation.
