Friday, July 27, 2018
Friday, July 20, 2018
A Moon Crater With "A Ring of Beads!"
On a whim I imaged the Moon July 18, 2018 with my Explore Scientfic AR127 scope using a Canon T3i. I didn't think much about it until I thought I would take an over-exposed image to reveal the "Earthshine" (light from the Sun, reflected by the Earth on the Moon, which is then reflected back to the Earth).
That's when I saw a kind of weird feature near the top of the Moon in the image.
It appeared to be a "ring of beads"!
Here is a cropped image of the normal exposure:
And this is a cropped view of the over-exposed Moon:
What this is showing is that the rim around this particular large crater was having the sunlight hit just the tops of the rim where there are taller peaks to catch the light, while the floor of the crater is still in shadow! Cool!
I am not sure but it might be the crater called "Goldschmidt"
Flyover by the International Space Station (ISS)
I got a heads-up that the International Space Station would be flying overhead on July 18, 2018 at about 10:36 pm. So I set up with a 24mm wide angle lens on my Canon T3i. I mounted it on a stationary tripod and took a long single exposure of about 3 minutes.
In the lower center you can see the roof of the La Pine Observatory.
First Effort at imaging the Veil Nebula
Things have calmed down some this summer and I was able to get out and do a little astroimaging with my Explore Scientific AR127 scope. I had not intended to make this a long session so I did not do any image stacking which would have improved the quality of the Veil Nebula. This is my first effort at capturing this lovely nebula!
Another day...
Eastern portion of the Veil Nebula region
in the constellation Cygnus aka the Northern Cross
The Western portion of the Veil Nebula region
in the constellation Cygnus aka the Northern Cross
Friday, July 13, 2018
Noctilucent Clouds over La Pine !
On my way out last night to the observatory some unusual clouds were hoovering high up in the atmosphere in the west to overhead. I realized what they were: noctilucent clouds!
See the Wikipedia info on them below the pics!
(Note: clicking on the images should show a little larger view)
They are the highest clouds in Earth's atmosphere, located in the mesosphere at altitudes of around 76 to 85 km (47 to 53 mi). They are too faint to be seen in daylight, and are visible only when illuminated by sunlight from below the horizon while the lower layers of the atmosphere are in Earth's shadow.
Noctilucent clouds are not fully understood and are a recently discovered meteorological phenomenon. No confirmed record of their observation exists before 1885, although they may have been observed a few decades earlier by Thomas Romney Robinson in Armagh.[1] Doubts now surround Robinson's out-of-season records, following observations, from several points around high northern latitudes, of NLC-like phenomena following the Chelyabinsk superbolide entry in February 2013 (outside the NLC season) that were in fact stratospheric dust reflections visible after sunset.
Noctilucent clouds can form only under very restricted conditions during local summer; their occurrence can be used as a sensitive guide to changes in the upper atmosphere. They are a relatively recent classification. The occurrence of noctilucent clouds appears to be increasing in frequency, brightness and extent.
See the Wikipedia info on them below the pics!
(Note: clicking on the images should show a little larger view)
This was taken facing south.
You can see the Big Dipper and the Little Dipper
in this image taken towards the west.
This image was taken a few minutes later
facing south again.
Noctilucent clouds, or night shining clouds, are tenuous cloud-like phenomena in the upper atmosphere of Earth. They consist of ice crystals and are only visible during astronomical twilight. Noctilucent roughly means "night shining" in Latin. They are most often observed during the summer months from latitudes between 50° and 70° north and south of the Equator. They are visible only during local summer months and when the Sun is below the observer's horizon, but while the clouds are still in sunlight.
They are the highest clouds in Earth's atmosphere, located in the mesosphere at altitudes of around 76 to 85 km (47 to 53 mi). They are too faint to be seen in daylight, and are visible only when illuminated by sunlight from below the horizon while the lower layers of the atmosphere are in Earth's shadow.
Noctilucent clouds are not fully understood and are a recently discovered meteorological phenomenon. No confirmed record of their observation exists before 1885, although they may have been observed a few decades earlier by Thomas Romney Robinson in Armagh.[1] Doubts now surround Robinson's out-of-season records, following observations, from several points around high northern latitudes, of NLC-like phenomena following the Chelyabinsk superbolide entry in February 2013 (outside the NLC season) that were in fact stratospheric dust reflections visible after sunset.
Noctilucent clouds can form only under very restricted conditions during local summer; their occurrence can be used as a sensitive guide to changes in the upper atmosphere. They are a relatively recent classification. The occurrence of noctilucent clouds appears to be increasing in frequency, brightness and extent.
Summer Imaging Has Begun!
Saturn
Single image (not stacked)
Meade LX200GPS 8" - Prime focus
Cropped considerably - ISO 800 - Canon T3i
M 13 in Hercules
Meade LX200GPS 8" - Prime focus
Cropped - ISO 3200 - Canon T3i
Stacked with DSS - 10 sec exposures
Stack of about 9 shots
M 27 - Dumbell Nebula
Meade LX200GPS 8" - Prime focus
Cropped considerably - ISO 12800 - Canon T3i
Stacked with DSS - 15 sec exposures
Stack of about 28 - Total integration time: about 7 minutes
Some catching up to do, the Good News and the Bad News:
Good News: After removing my Meade scope from its tripod in the observatory I was able to create a new concrete pier for the scope and wedge. (pics to follow in another report).
Bad News: In the process the scope, being very heavy, seemed to have lost where it was at in terms of RA, so that when I started the scope up it wanted to rotate WAY BEYOND where it should! I thought for a while that perhaps I had damage the RA in some way in the move and was looking at having to plunk more $$$ to get a new scope
Good News: After surfing the WWW for info, I discovered that it was possible to correct the RA problem... and it WORKS great again! $$$ saved!
Bad News: I wish I had made the pier about 10 inches taller... I guess I didn't measure as well as I thought I had.... hmmmmm
Good News: I can still add more height to the pier in the future... just not this year, I think.
I still have to get the wedge and scope better polar aligned as I can only expose for a maximum of 15 seconds, far too short for dim deep sky objects. This will take some time to accomplish...
Ah... the joys of deep sky astrophotography!