Sunday, October 2, 2016

open cluster Messier 29, the pants cluster?

M 29 is an open cluster in cygnus:

relatively bright, an easy target for a small telescope or binoculars
the 5 brightest stars are B0 giants, 160,000 times brighter than the sun

a wider field caught some faint nebulosity 

(upper right, click on images below for full size):

so i shot some Hydrogen alpha images

to dress it up:

in doing a web search on this
i came across (trigger warning) this bizarre image  which links to a youtube video

by British astronomer Pete Lawrence. 
apparently pants is slang for "not good" and normally refers to "underpants".

anyway what he's getting at is that it's not the most impressive cluster out there.
part of the reason for this is that intervening dust obscures the light from these stars by a factor of 1000.  furthermore, the cluster sits in  cygnus, a section of the sky very rich in background stars.  

that being said, in my long focal length SCT (high power/narrow field) it's a nicely defined object whereas most open clusters are too big to be encompassed by the SCT's field

i shot it mainly as a test of my short focal length refractor
which didn't turn out that well as evidenced by these ugly distorted stars in the corners that i had to crop out:

Imaging details:
Takahashi FS-60C F/4.2
Starlight Xpress Trius 694 3.7"/px
astrodon 5nm Ha, RGB E-series filters
Ha 36x5 min, RGB 20x1 minute each channel

Eastbluff, CA


Sunday, July 17, 2016

Juno and Winjupos

first kudos to the folks at NASA
perhaps a bit of hubris and over the top nationalism
but it's a pretty impressive feat
they launched the Juno mission to Jupiter in 2011
planning for the deceleration burn to occur as it reached closest approach to Jupiter on July 4th.

they nailed it to the second (despite a 10 light-minute communication lag)
blasting away in the midst of 4th of July fireworks, streaming live from NASA
(though i doubt many watched)
credit for the witty mission name as well.
Juno, who's mission is to peer thru Jupiter's cloud belts, helping to understand it's composition,
is named for the god's wife, known for seeing through the clouds he used to hide his mischief, eg, jovian moons/nymphs

the sci fi book Seveneves, recently recommended to me, takes great pains to get the details of such orbital maneuvers correct. 

in light of this, here are more of this year's jupiter images

touched on this a bit last year (bottom of post), but one of the problems with imaging jupiter with a mono camera is that it rotates so rapidly that the surface details move between red, green and blue filter images, making for an ugly image:

I used a software program called WinJupos to "de-rotate" the images for the RGB combine.

WinJupos basically projects a circular planetary image onto a sphere, and then allows you to rotate the data on the sphere, and then project it back out as a two dimensional image.  in this way, images taken at different rotational angles can be combined (provided the time stamp, etc. is correct). 

so here's a comparison of an image of Jupiter taken on the same night with a color camera, compared to a mono camera taking individual red, green, and blue filter sequences then combining.  In theory the mono camera has higher resolution:

color camera:

mono camera with color filters:

more dramatic difference than i'd expected, which is a bummer as it takes a lot of work :(

another thing WinJupos allows you to do is combine very long sequences.  more images=better signal to noise ratios, and potentially sharper images.

here's a 1 minute image (very noisy):

and here's a draft of a series of 1 minute images combined (less noise and room for more sharpening):

and here it is after final sharpening (also correction of mirror image flip caused by diagonal, which really irk's folks in planetary imaging forums):

this also allows smoother animations of the planet's rotation.  rather than create an animation with a series of one minute images, WinJupos can combine them all
then display the combined data at varying rotations:  

compare the above animation, in which the detail in each image is consistent, to my last animation (below) demonstrating major seeing changes from frame to frame:

lastly WinJupos allows alternative projections, familiar to cartographers, such as this equirectangular view which basically makes all the bands/belts the same length:

or the more interesting polar projection.  

check out the Great Red Spot viewed from the south pole:

looks like the great red spot scooping down into the white zone, leaving a turbulent wake behind it

my goal is to use this technique to capture the hexagon on saturn's north pole, but the weather has not been cooperating this year with clouds almost every night in may/june, then terrible seeing so far in july

my notes 
(which probably only make sense to me) from a recent astronomy club talk on WinJupos are here

imaging details:
celestron nexstar 8 GPS (8" SCT on a wedge)
captures with firecapture @ ~200 fps
stacked in autostakkert, Drizzle 3x, combined in WinJupos, then reduced to 1.5x, sharpened in registax 6

Southern California
3/18/17, 3/27/16, 4/3/16

Tuesday, April 5, 2016

monster prom

Interrupting the Jovian parade with a monster solar prominence jutting way off the edge of the solar disk.
This one sat on the edge of the sun all weekend teasing me as I didn't have time for a long video time lapse.
Eventually got a few 20 second captures using a grab and go mount, manually moving the slow motion controls.  

Here's a wide view:

Negative for the filaments:

Close up which reminds me a bit of a ghoul dancing on the edge of the sun:

image details:
wide frame Lunt 60 PT double stacked
close up single stacked
on grab & go tach teegul-azm mount
ASI 120 MM-S camera