Lunt calcium filter imaging thread
- Montana
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Re: Lunt calcium filter imaging thread
This is my best
220516_081515 by Alexandra Hart, on Flickr
But mostly like this
180617_073020 by Alexandra Hart, on Flickr
These are the best, 99% I through away as they are blurred after processing.
Alexandra
220516_081515 by Alexandra Hart, on Flickr
But mostly like this
180617_073020 by Alexandra Hart, on Flickr
These are the best, 99% I through away as they are blurred after processing.
Alexandra
- Valery
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Re: Lunt calcium filter imaging thread
Apollo,
Lunt CaK is 2,4A and the PST is 2.2A. I have compared the Lunt CaK 12mm diagonal and my PST CaK in the configuration I have now.
Lunt was better than PST CaK if the PST CaK was single stacked. I belive this was because the blocking filter of the PST was rusty. I stick with the PST hoping to change the bloking filter for baader K-line. This was not realized yet.
As far as I know, the PST CaK is 3 or 4 cavity filter. It works very good from F/7 to F/40 without noticeable degradation at F/7.
Same with the Lunt CaK filter.
Lunt CaK is 2,4A and the PST is 2.2A. I have compared the Lunt CaK 12mm diagonal and my PST CaK in the configuration I have now.
Lunt was better than PST CaK if the PST CaK was single stacked. I belive this was because the blocking filter of the PST was rusty. I stick with the PST hoping to change the bloking filter for baader K-line. This was not realized yet.
As far as I know, the PST CaK is 3 or 4 cavity filter. It works very good from F/7 to F/40 without noticeable degradation at F/7.
Same with the Lunt CaK filter.
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Re: Lunt calcium filter imaging thread
Here is an image taken a while ago with the Lunt Ca K filter:
This is quite a good Ca K filter. I use it with a 150 mm refractor and no ERF with no problem. But don't use it with a larger aperture and no ERF. A friend tested it with a 200 mm and the fiter got damaged ...
This is quite a good Ca K filter. I use it with a 150 mm refractor and no ERF with no problem. But don't use it with a larger aperture and no ERF. A friend tested it with a 200 mm and the fiter got damaged ...
Christian Viladrich
Co-author of "Planetary Astronomy"
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Re: Lunt calcium filter imaging thread
Christian,christian viladrich wrote: ↑Fri Sep 28, 2018 3:19 pm Here is an image taken a while ago with the Lunt Ca K filter:
This is quite a good Ca K filter. I use it with a 150 mm refractor and no ERF with no problem. But don't use it with a larger aperture and no ERF. A friend tested it with a 200 mm and the fiter got damaged ...
Thanks for the input.
BTW Did you ever perform the direct comparision of your Barr CaK and Lunt CaK filters?
Valery
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Re: Lunt calcium filter imaging thread
Spherical aberration is the key hindrance at these wavelengths.
http://brierleyhillsolar.blogspot.co.uk/
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Re: Lunt calcium filter imaging thread
I also found out that old one taken with the Lunt CaK :
Valery, you made me check my data log :-)
In fact, I broke my Baader K-line filter (which I used at that time as an ERF for the Barr Ca K filter) when I had the Lunt Ca K for testing. So I have no direct comparison.
This being said, the difference between the Baar filter and the Lunt is clear when you compare the image I took with the Lunt on August 17 (in my previous message above) and the image taken one day earlier with the Barr filter :
Another point of interest is that the images with the Lunt and the Barr filters are taken with the some exposure time, while the image scale of the image with the Baar is much larger. This means that the transmission of the Barr filter is higher that the transmission of the Lunt.
Valery, you made me check my data log :-)
In fact, I broke my Baader K-line filter (which I used at that time as an ERF for the Barr Ca K filter) when I had the Lunt Ca K for testing. So I have no direct comparison.
This being said, the difference between the Baar filter and the Lunt is clear when you compare the image I took with the Lunt on August 17 (in my previous message above) and the image taken one day earlier with the Barr filter :
Another point of interest is that the images with the Lunt and the Barr filters are taken with the some exposure time, while the image scale of the image with the Baar is much larger. This means that the transmission of the Barr filter is higher that the transmission of the Lunt.
Christian Viladrich
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http://planetary-astronomy.com/
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http://www.astronomiesolaire.com/
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http://planetary-astronomy.com/
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Re: Lunt calcium filter imaging thread
Here are older images taken of the full disk, an AR closeup and proms (with inverted disk). All were taken with Lunt B1800. All except the full disk had the Lunt stacked with an Omega 2 Angstrom (nominally) filter. Possibly a contrast improvement ... not sure and didn't really carry out study with / without the Omega.
Cheers.
Peter
Cheers.
Peter
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Re: Lunt calcium filter imaging thread
BTW, in adddition to the Lunt, the Daystar Ca H filter is another good Ca K filter.
Christian Viladrich
Co-author of "Planetary Astronomy"
http://planetary-astronomy.com/
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Editor of "Solar Astronomy"
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Re: Lunt calcium filter imaging thread
At 393 it's not about strehl it's about spherical aberration. That 115/7 (along with the TOAs) have very little SA down in the blue. High strehl is definitely not a indicator a scope will perform well deep down in the blue.TheSkyBurner wrote: ↑Sat Sep 29, 2018 1:57 am Peter has got an apo-triplet. that explains it! Super-apo telescopes are just in a league of their own for all wavelengths. I cant beat that high strehl ratio with out using my 150mm f15....
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Re: Lunt calcium filter imaging thread
Hello Mark,
If I may, I would suggest rephrasing your statement as follows :
"the Strelh ratio at 436 nm (g band for the opticians) is not relevant to the performance of the refractor at 393 nm".
This is because the spherical aberration increases very fast when you go to shorter wavelengths.
Here is an example with the SC :
Because of the refractive index evolution with the wavelength, spherical aberration increases gently with longer wavelengths, and sharply will shorter wavelengthx.
Indeed, the Strehl ratio includes all aberrations of the optics. Accordingly, The Strelh ratio at 393 nm is fully relevant to the performance of the optic at 393 nm. The optics is diffraction limited when the Strelh is greater than 0.8.
Best regards
If I may, I would suggest rephrasing your statement as follows :
"the Strelh ratio at 436 nm (g band for the opticians) is not relevant to the performance of the refractor at 393 nm".
This is because the spherical aberration increases very fast when you go to shorter wavelengths.
Here is an example with the SC :
Because of the refractive index evolution with the wavelength, spherical aberration increases gently with longer wavelengths, and sharply will shorter wavelengthx.
Indeed, the Strehl ratio includes all aberrations of the optics. Accordingly, The Strelh ratio at 393 nm is fully relevant to the performance of the optic at 393 nm. The optics is diffraction limited when the Strelh is greater than 0.8.
Best regards
Christian Viladrich
Co-author of "Planetary Astronomy"
http://planetary-astronomy.com/
Editor of "Solar Astronomy"
http://www.astronomiesolaire.com/
Co-author of "Planetary Astronomy"
http://planetary-astronomy.com/
Editor of "Solar Astronomy"
http://www.astronomiesolaire.com/
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Re: Lunt calcium filter imaging thread
This image is at 393nm continuum taken with a standard C11 280mm F/10 telescope.
download/file.php?id=34233
The image is quite crisp.
download/file.php?id=34233
The image is quite crisp.
"Solar H alpha activity is the most dynamic and compelling thing you can see in a telescope, so spend accordingly." (c) Bob Yoesle.
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Re: Lunt calcium filter imaging thread
Fair point Christian, that says it better than I put it.christian viladrich wrote: ↑Sat Sep 29, 2018 9:11 am Hello Mark,
If I may, I would suggest rephrasing your statement as follows :
"the Strelh ratio at 436 nm (g band for the opticians) is not relevant to the performance of the refractor at 393 nm".
This is because the spherical aberration increases very fast when you go to shorter wavelengths.
Here is an example with the SC :
Because of the refractive index evolution with the wavelength, spherical aberration increases gently with longer wavelengths, and sharply will shorter wavelengthx.
Indeed, the Strehl ratio includes all aberrations of the optics. Accordingly, The Strelh ratio at 393 nm is fully relevant to the performance of the optic at 393 nm. The optics is diffraction limited when the Strelh is greater than 0.8.
Best regards
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Re: Lunt calcium filter imaging thread
Hi Valery,Valery wrote: ↑Sat Sep 29, 2018 1:43 pm This image is at 393nm continuum taken with a standard C11 280mm F/10 telescope.
download/file.php?id=34233
The image is quite crisp.
Is the c11 one that you selected from a number over time, or this the only one you've had?
Mark
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Re: Lunt calcium filter imaging thread
This is the very same C11 telescope I started the high res imaging with. It has very average optics. I'd better havemarktownley wrote: ↑Sat Sep 29, 2018 5:28 pmHi Valery,Valery wrote: ↑Sat Sep 29, 2018 1:43 pm This image is at 393nm continuum taken with a standard C11 280mm F/10 telescope.
download/file.php?id=34233
The image is quite crisp.
Is the c11 one that you selected from a number over time, or this the only one you've had?
Mark
a telescope with somewhat smoother optics.
"Solar H alpha activity is the most dynamic and compelling thing you can see in a telescope, so spend accordingly." (c) Bob Yoesle.
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Re: Lunt calcium filter imaging thread
This image is nearly as 1,6x larger scale than the H-a image, Apollo. Resolution corresponds to 11" aperture at this wave length. High is not possible. Corrective optics has been used. Remember for the future: Valery is optical designer and systems and optics maker in a past and I know something in optics...TheSkyBurner wrote: ↑Sat Sep 29, 2018 7:36 pmValery: it is a good image, but it is not entirely "crisp". It is very blurry to my eyes, and it is over processed to bring out the details. Processing is a personal ability, and not a good indication of how well the scope is. It is a factor of lucky imaging.Valery wrote: ↑Sat Sep 29, 2018 1:43 pm This image is at 393nm continuum taken with a standard C11 280mm F/10 telescope.
download/file.php?id=34233
The image is quite crisp.
You would get a better image if the optics were turned in favor of the blue wavelength, your hydrogen alpha image is the proof in the pudding. It is so much sharper, and has pure definition across all the whole-image. Which means the optics on the c11 are definitely made for h-alpha more than calcium. (as they should be, it is a deep space imaging scope)
If you could post the single frame data or a 10 frame raw data animation we can conclude the sharpness with better opinion of the sct optics. http://gifmaker.org/ (just extract 10 frames from the .avi file using avidub and upload them to gifmaker)
Post 10 frames of h-alpha raw, and 10 frames of calcium raw (unedited, unprocessed, screen grabbed straight from the .ser capture.)
Again, the image is great. But, there are definitely better optics out there for this color, like peters. We all work with what we have.
However I would trade the c11 for the apo triplet every day of the week,. (sacrificing the aperture for the strehl)
Valery: if i could give you my 150mm f/15 telescope, i would. You would likely use many times over the c11 and c14. Sometimes more aperture is not always the best choice, but of course; aperture IS king!
Christian your images are going to be very helpful! Thanks for posting.
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Re: Lunt calcium filter imaging thread
I thought this scope was a good example of how strehl varies with wavelength - the apm 152/7.8 doublet https://www.apm-telescopes.de/en/telesc ... 9-ota.html At either end of the spectrum the strehl plummets away
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Re: Lunt calcium filter imaging thread
Hi All...
I pillaged the image archive on the weekend and pulled together a few examples of CaK images I've taken over the past 10 years. As requested, no pics of the hardware, but the evolution of the imaging systems used is listed below:
2008 - 2010 - Lunt 60mm/B1200CaK scope or a Williams Optic 72mm, f6/B1200CaK (the B1200CaK module was interchanged between the two OTA's
2010 - 2012 - Lunt B1200CaK + Celestron C102 OTA
2012 - 2016 - Lunt B1800CaK + IStar 150mm, f8 OTA or CR-150, f8 OTA
2016 - Present - Lunt B1800CaK/Solar Wedge Hybrid/Baader CaK filter + IStar 150mm, f8 OTA
Cameras used are primarily PGR Grasshopper Xpress (ICX674 chip), ZWO 175MM, and ZWO 1600mm.
The early years...2009-2013: 2014-2018:
The days of solar maximum certainly made a CaK filter a joy to use
If there are any questions just let me know.
Brian
I pillaged the image archive on the weekend and pulled together a few examples of CaK images I've taken over the past 10 years. As requested, no pics of the hardware, but the evolution of the imaging systems used is listed below:
2008 - 2010 - Lunt 60mm/B1200CaK scope or a Williams Optic 72mm, f6/B1200CaK (the B1200CaK module was interchanged between the two OTA's
2010 - 2012 - Lunt B1200CaK + Celestron C102 OTA
2012 - 2016 - Lunt B1800CaK + IStar 150mm, f8 OTA or CR-150, f8 OTA
2016 - Present - Lunt B1800CaK/Solar Wedge Hybrid/Baader CaK filter + IStar 150mm, f8 OTA
Cameras used are primarily PGR Grasshopper Xpress (ICX674 chip), ZWO 175MM, and ZWO 1600mm.
The early years...2009-2013: 2014-2018:
The days of solar maximum certainly made a CaK filter a joy to use
If there are any questions just let me know.
Brian
Brian Colville
Maple Ridge Observatory
Cambray, ON Canada
Photos: https://www.flickr.com/photos/185395281@N08/albums
10'x15 Roll-off Roof Observatory
Takahashi EM400 Mount carrying:
C14 + Lunt 80ED
Deep Sky Work - ASI294MM Pro+EFW 7x36/Canon 60D (Ha mod), ONAG
Planetary Work - SBIG CFW10, ASI462MM
2.2m Diameter Dome
iOptron CEM70G Mount carrying:
Orion EON 130ED, f7 OTA for Day & Night Use
Ha Setup: Lunt LS80PT/LS75FHa/B1200Ha + Home Brew Lunt Double Stack/B1800Ha on the Orion OTA + Daystar Quantum
WL, G-Band & CaK Setup: Lunt Wedge & Lunt B1800CaK, Baader K-Line and Altair 2nm G-Band filter
ASI1600MM, ASI432MM, ASI294MM Pro, ASI174MM, ASI462MM
Maple Ridge Observatory
Cambray, ON Canada
Photos: https://www.flickr.com/photos/185395281@N08/albums
10'x15 Roll-off Roof Observatory
Takahashi EM400 Mount carrying:
C14 + Lunt 80ED
Deep Sky Work - ASI294MM Pro+EFW 7x36/Canon 60D (Ha mod), ONAG
Planetary Work - SBIG CFW10, ASI462MM
2.2m Diameter Dome
iOptron CEM70G Mount carrying:
Orion EON 130ED, f7 OTA for Day & Night Use
Ha Setup: Lunt LS80PT/LS75FHa/B1200Ha + Home Brew Lunt Double Stack/B1800Ha on the Orion OTA + Daystar Quantum
WL, G-Band & CaK Setup: Lunt Wedge & Lunt B1800CaK, Baader K-Line and Altair 2nm G-Band filter
ASI1600MM, ASI432MM, ASI294MM Pro, ASI174MM, ASI462MM
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Re: Lunt calcium filter imaging thread
It is too bad that some places on earth suffer from the pollution as shown in the pic posted for the 'televised sunrise'. I suspect that unless there is major change in thinking these places will continue to degrade. I only hope that clearer minds will continue to push efforts to preserve the environment for generations that have not been born yet.
Brian
Brian
Brian Colville
Maple Ridge Observatory
Cambray, ON Canada
Photos: https://www.flickr.com/photos/185395281@N08/albums
10'x15 Roll-off Roof Observatory
Takahashi EM400 Mount carrying:
C14 + Lunt 80ED
Deep Sky Work - ASI294MM Pro+EFW 7x36/Canon 60D (Ha mod), ONAG
Planetary Work - SBIG CFW10, ASI462MM
2.2m Diameter Dome
iOptron CEM70G Mount carrying:
Orion EON 130ED, f7 OTA for Day & Night Use
Ha Setup: Lunt LS80PT/LS75FHa/B1200Ha + Home Brew Lunt Double Stack/B1800Ha on the Orion OTA + Daystar Quantum
WL, G-Band & CaK Setup: Lunt Wedge & Lunt B1800CaK, Baader K-Line and Altair 2nm G-Band filter
ASI1600MM, ASI432MM, ASI294MM Pro, ASI174MM, ASI462MM
Maple Ridge Observatory
Cambray, ON Canada
Photos: https://www.flickr.com/photos/185395281@N08/albums
10'x15 Roll-off Roof Observatory
Takahashi EM400 Mount carrying:
C14 + Lunt 80ED
Deep Sky Work - ASI294MM Pro+EFW 7x36/Canon 60D (Ha mod), ONAG
Planetary Work - SBIG CFW10, ASI462MM
2.2m Diameter Dome
iOptron CEM70G Mount carrying:
Orion EON 130ED, f7 OTA for Day & Night Use
Ha Setup: Lunt LS80PT/LS75FHa/B1200Ha + Home Brew Lunt Double Stack/B1800Ha on the Orion OTA + Daystar Quantum
WL, G-Band & CaK Setup: Lunt Wedge & Lunt B1800CaK, Baader K-Line and Altair 2nm G-Band filter
ASI1600MM, ASI432MM, ASI294MM Pro, ASI174MM, ASI462MM