Target: M30 and a Ghostly Nebula
Camera: Canon 350d modified, WO F2 FR, Baader 2” Skyglow filter
Exposure Capture: DLSR Focus
Scope: GSO CF RC200
EFR: f/6
Mount: EQ6 Pro
Exposure Setting: Prime focus, ISO800 ICNR off Daylight WB
Exposures: 1x180s, 10 X330s, 1/8/09
Seeing: waxing gibbous 80% moon
Guiding: Orion Starshoot Autoguider using PHD with ED80
Focus: DSLR Focus
Stacking: DSS 8 darks plus flats, no bias applied
Processing: CS3
Right Ascension 21 : 40.4 (h:m)
Declination -23 : 11 (deg:m)
Distance 26.1 (kly)
Visual Brightness 7.2 (mag)
Apparent Dimension 12.0 (arc min)
Discovered 1764 by Charles Messier.
Globular cluster Messier 30 (M30, NGC 7099), at about 26,000 light years distance and about 90 light years across, and appears to us under an angular diameter of about 12.0 arc minutes. It is fairly dense (as its concentration class V indicates), and a fine object in even small telescopes. Its brightest red giant stars are about of apparent visual magnitude 12.1, its horizontal branch giants at magnitude 15.1. Only about 12 variable stars have been found in this globular cluster. A color-magnitude diagram (CMD) of M30 can be found in Richer et.al. (1988). Its overall spectral type has been determined as F3, and its color index was given as B-V=0.60 mag. It is approaching us at 181.9 km/s.
The core of M30 exhibits an extremely dense stellar population, and has undergone a core collapse, similar to at least 20 other of the 150 globulars in the Milky Way Galaxy, including M15, M70, and possibly M62. Consequently, M30's core is very small in extension, only about 0.12 arc minutes (7.2 arc seconds, corresponding to a linear diameter of 0.9 light years), and its half-mass radius is 1.15 arc min (8.7 light years); half of this cluster's mass is concentrated in a spherical volume of a radius equal to the distance of Sirius from us, or 17.4 light years diameter. On the other hand, its tidal radius is large: 18.34 arc minutes, corresponding to a linear radius of 139 light years. Beyond that distance, member stars would escape simply because of the Milky Way Galaxy's tidal gravitational forces.
Despite its compressed core, close encounters of the member stars of globular cluster M30 seem to have occurred comparatively rare, as it appears to contain only few X-ray binary stars, according to investigations with the Chandra X-ray Observatory satellite. These particular stellar systems are thought to form in close encounters as they occur occasionally in the denser zones of globular clusters.
Cecilia Payne-Gaposchkin mentions that a dwarf nova had occurred in M30; another one has been detected in M5 and a third in NGC 6712. M30 was one of the original discoveries of Charles Messier, who cataloged it on August 3, 1764 and like most of his globulars, described it as round nebula, containing no stars. It was first resolved by William Herschel around 1784. The brightest stars of M30 can be seen in telescopes starting at or even just below 4-inch aperture.
Oh yes it's there alright, it's called The Great Iturnalreflexun Nebula, first discovered by the Romainian astronomer Ites Notbaffled. It only shows up under rare sky conditions
M30 is an interesting glob, has little spikes of star
No I've taken flats and normal images and no marks appear. The Arctic Butterfly is a brush system.
I noticed there was still dew on the secondary and some on the primary this morning, so I'm wondering considering the conditions last night whether it may have been caused through dewing
I believe it is straylight from an outside source. Could be anything from a streetlight that happened to shine in your tube, to a meteor bright enough to cause internal reflections in your optics that whisked past close to M30 during your exposure.
Les makes an interesting point about Jupiter, but at 8º distance, that's probably a bit too distant for an object of that brightness to interfere, especially as drastically as it did in your image.
The waxing gibbious moon was in Scorpious on the date of your image, so it perhaps could be the culprit?
