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March 2009

Whale, Hockey Stick and Mice galaxies

Posted: March 27th, 2009


Bigger field and size: 2799x1936

DATE
March 27th, 2009

PHOTO
Exposure time:
L: 9x10' (bin 1x1)
RGB: 4x5' each (bin 2x2)
Total: 2 1/2 hours
Focal: 530mm, f/5 

EQUIPMENT
Imaging scope: Takahashi FSQ 106 EDX
Camera: STL11000
Guiding camera: StarShoot Autoguider
Mount: Takahashi EM400

SITE & CONDITIONS
Henry Coe State Park, Morgan Hill, California
Seeing: Ok
Transparency: Average

SOFTWARE
Stacking: MaximDL
Processing: PixInsight & Photoshop

COMMENTS
Short session and even shorter time processing the image. I was trying to put in the same field of view both, the Whale galaxy with its classic companion galaxies, as well as the tiny Mice galaxies despite the mice would end up with about the same size as a bright star. If you cannot find the mice, they're around the top-left corner of the large image ;-) Don't look for it in the image above, as it's a crop of the entire feld of view, focusing on the Whale (NGC 4631) and Hockey Stick (NGC 4627) galaxies

This by the way is probably the last time I bin 2x2 for the RGBs. IMO, it's not worth it. Also, despite I spent processing the image not much longer than one hour, I think I over processed the main galaxies a bit more, and left the background a bit too dark.

Leo Triplet and NGC 3628 tidal tail

Posted: March 19th, 2009


Bigger size: 1776x1305

DATE
March 17,19,24 and 27, 2009

PHOTO
Exposure time:
L: 10x12' + 28x15'
RGB: 5x12' each
Total: 15 hours
Focal: 530mm, f/5 

EQUIPMENT
Imaging scope: Takahashi FSQ 106 EDX
Camera: STL11000
Guiding camera: StarShoot Autoguider
Mount: Takahashi EM400

SITE & CONDITIONS
Henry Coe State Park and Dinosaur Point
Seeing: Ok
Transparency: Average to very good, depending on the date and time

SOFTWARE
Stacking: MaximDL
Processing: PixInsight & Photoshop

COMMENTS

The Leo Triplet (also known as the M66 Group) is a small group of galaxies about 35 million light-years away in the constellation Leo. This galaxy group consists of the spiral galaxies M65, the M66, and the NGC 3628. Tidal and gravitational forces are acting between these galaxies, but even more interesting -at least to me- is the 300,000 light-years long tidal tail from NGC 3628.

You don't see often this tail in photographs. It is just so dim! As such, this image has been processed to show the tidal tail, but if the amount of light we see in this image coming from the tail as at that intensity, the light coming from the galaxies would be so strong that we wouldn't be able to see any details in the galaxies.

For this image, it was key to find a good balance between the quality of the sky and the length of the
exposures. I started taking 30 minutes subs, and I had to discard them because the sky glow would eat up
all the dim signal from the tail. That's why you see I used subs of 12 and 15 minutes. It turned out that both
worked well, unlike the 30 minutes subs, so I used both of those sets. In fact, afterfailing with the 30
minutes exposures, I tried 15 minutes and it worked well, soI settled for that, but one night the transparency
wasn't bad but not as good andI decided to go for 12 minutes that night.

:: 4 Comments

FSQ106 ED/EDX + Extender Q + STL "HowTo"

Posted: March 1st, 2009

If you have a Takahashi FSQ106ED (or EDX) telescope with the camera rotator (CAA #17), and a SBIG STL camera, and would like to use the Extender Q, the combination of adapters you need can get a bit tricky. Below I explain in detail a combination that works very well for me.

These are the pieces and adapters you'll need - in addition to the scope, camera rotator and STL camera, or course.

If you use a FW-8 filter wheel instead of the internal wheel, don't get the TCD0012 part. Get the TCD0012S instead. In the US I believe the only place you can purchase these new is at TNR.

First, you'll need to buy or make shorter thumbscrews for your Visual 2":

I was able to find them at a local Home Depot, so hopefully it won't be hard for you to find them. Depending on your ability, it might be easier just to cut short the ones that come with it. I wanted to keep the originals just in case, that's why I decided to get a new set. If you get the Hex Allen type,even better.

Now, why use shorter thumbscrews? Because this piece will go all the way inside the TRDC0106, like shown in the two images below, and the original thumbscrews that come with the Visual 2" are just too long, so you won't be able to insert the Visual 2" all the way inside the TRDC0106 unless you use shorter thumbscrews.


Now that you know that, let's build the optical train.

Step 1

The first thing you need to do is to put the extender inside the Visual 2", and tighten the (shorter) thumbscrews. For safety, don't just rely on your fingers.

You do this first because if you did step 2 first, you wouldn't be able to do this step aftwerwards - the Visual 2" tumbscrews would be inside the TRDC0106, no way you'd be able to tighten them then!

Step 2

Now you insert the Visual 2" inside the TRDC0106. By the way, you could - in fact I recommend it -put the TRDC0106 on your scope already, and build the optical train as you go.

Step 3

Now it's time to put the CA35 inside the extender. Make sure the CA35 thumbscrew is tight. Not only you're going to hang a very expensive 4lb CCD later, you want to mak esure the optical train stays as straight as possible to avoid flexure and other evil things.

Step 3

Now it's time to put the threaded TCD0012STL into the CA35.

Once that's done, all you have left is to connect the STL to the TCD0012STL and you're done.

Happy imaging!!

:: 1 Comments

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