COPYRIGHT, PLEASE NOTE

All the material on this website is copyrighted to J-P Metsavainio, if not otherwise stated. Any content on this website may not be reproduced without the author’s permission.

Have a visit in my portfolio

Vieraile portfoliossani

Tuesday, August 30, 2016

Flash from the past, Cederblad 214, the Cosmic Question mark, reprocessed



The new imaging season will start at 5. of September up here 65N. I have been practising my data processing skills by reprocessing some of my older image data. This time the Cederblad 214 got a new processing. Not a big difference to original processing, little better colors and the detail level is somehow higher.


Cederblad 214, the Cosmic Question Mark
Click for a much large image

Image in mapped colors from ionized elements, Red=Sulfur, Green=Hydrogen & Blue=Oxygen. Image was taken with the Canon camera optics, EF 200mm f.8 full open, QHY9 astrocamera and the Baader narrowband filters. The original blog post from 2012, with technical details, can be seen HERE


A detail

A detail shot from the bright central region of the image at the top.  This photo was taken with my new setup, Celestron Edge HD 1100 f7, Apogee Alta U16 astrocamera and the Astrodon narrowband filters, Spring 2014. The original blog post from 2012, with technical details, can be seen HERE

INFO
Source: NASA APOD

Towering pillars of cold gas and dark dust adorn the center star forming region of Sharpless 171. An open cluster of stars is forming there from the gas in cold molecular clouds. As energetic light emitted by young massive stars boils away the opaque dust, the region fragments and picturesque pillars of the remnant gas and dust form and slowly evaporate. The energetic light also illuminates the surrounding hydrogen gas, causing it to glow as an emission nebula. Pictured above is the active central region of the Sharpless 171 greater emission nebula. Sharpless 171 incorporates NGC 7822 and the active region Cederblad 214, much of which is imaged above. The area above spans about 20 light years, lies about 3,000 light years away, and can be seen with a telescope toward the northern constellation of the King of Ethiopia (Cepheus).






Saturday, August 27, 2016

Cinemascope format panoramas from my astro photos



While waiting to image season to start up here, I have worked with a cinemascope format movie theatre presentation from my photos. This is an extra wide ~21:9 format used in movie theaters. The actual film is not ready yet but I have some of my images converted to this ultra wide format. I think they will look great at a large movie screen! I'll publish some of individual panoramic format photos here, images are downscaled for the web.


Cinemascope format image of the Sharpless 114 (Sh2-114)
The Flying Dragon Nebula, in eastern Cygnus, be sure to click for a full resolution version!


Natural color composition from the emission of ionized elements. 
More info and the technical details about my photo can be found from HERE

INFO

Sh2-114 is a complex and unusual HII emission nebula. Its complex, wispy structure is likely the result of winds from hot, massive stars interacting with the magnetic fields in the interstellar medium. But very little is known about it. (Source, https://www.noao.edu/image_gallery/html/im1112.html)






Monday, August 22, 2016

Pickering's Triangle reprocessed




This shot about the Pickering's Triangle was my opening image for the Autumn season 2015.
It was also selected for a Astronomy Picture of the Day (APOD) by the NASA. 

I'm waiting to new imaging season to start. To practise my astronomical image processing skills, I have reprocessed the whole dataset, about 20 hours of exposures. 


Pickering's Triangle
Be sure to click for a large image!

The final photo has now better details and little bit more vivid colors. You can see the previous version in the original blog post HEREColors are from the ionized elements, Hydrogen, Sulfur and Oxygen. S-II = Red, H-alpha = Green and O-III = Blue. 


A closeup
Be sure to click for a large image!




An experimental starless version
Be sure to click for a large image!

Details in this complex supernova remnant are easier to see when the stars are suppressed.  It looks kind of spooky too.

The whole two frame mosaic in cinemascope format
Be sure to click for a large image!




A wide field photo shows the whole Veil Nebula supernova remnant

The Pickering's Triangle can be see at one o'clock position.
My blog post about the wide field shot can be seen HERE.


Technical details

Processing work flow

Image acquisition, MaxiDL v5.07.
Stacked and calibrated in CCDStack2.
Deconvolution with a CCDStack2 Positive Constraint, 33 iterations, added at 33% weight
Color combine in PS CS3
Levels and curves in PS CS3.

Imaging optics
Celestron Edge HD 1100 @ f7 with 0,7 focal reducer for Edge HD 1100 telescope

Mount
10-micron 1000

Cameras and filters
Imaging camera Apogee Alta U16 and Apogee seven slot filter wheel
Guider camera, Lodestar x2 and SXV-AOL

Astrodon filter, 5nm H-alpha
Astrodon filter, 3nm O-III
Astrodon filter, 3nm S-II

Exposure times
H-alpha, 15 x 1200s = 5h
O-III, 36 x 1200s binned = 12h (Autumn 2014)
S-II,  from my older wide field photo of the Veil Nebula = 3h 
Total 20h




Astro anarchy gets published, Large print of the central Cygnus


This large 100 x 400 cm (3.3 x 13.2 feets) print out of  my photo of the Cygnus is located in Creative Laboratory (Luova Laboratorio) Oulu, Finland.

A large print
Please, click for a full size photo

Image is printed on canvas with an aluminium frame. The size is 100 x 400 cm (3.3 x 13.2 feets) 
This is a very high resolution mosaic image and it can be printed even much larger scale without losing any sharpness. The printed photo is actually a part from a large mosaic picture of constellation Cygnus. The whole 18-panels mosaic can be seen HERE 



Older large public artworks out of my photos


Path of Swans, Svenska Private School, Oulu, Finland, 2014

Print on aluminium, 360 x 160 (142 x 63 inch) More info HERE



Cirrus of Cygnus,  The "Oulu Region Joint Authority for Education" in Haukipudas, 2014

Print on aluminium, over 3 x 10 meters (10 x 33 feets) More info HERE







Saturday, August 20, 2016

An experimental 3D-study of the Great galaxy of Andromeda, M31



This is an experimental test with a 3D-conversion of my astronomical image. Only real elements from the original image are used, there is nothing added but the estimated volumetric information!

NOTE. This is a personal vision about shapes and volumes, based on some scientific data, deduction and an artistic impression.

Video


This is a looped video, click to start and stop. Original movie is in HD  1080p resolution.
All the foreground stars from the original image are removed. Starlike objects seen in this animation are actually globular clusters orbiting the Andromeda Galaxy. Click the YouTube logo at lower right corner to see this video in YouTube at full screen, you should set quality to HD 1080p,


Original 2d-image used for this 3d-study

An original  blog post with imaging details can be found from HERE


Info about the technique used

Due to huge distances, real parallax can't be imaged in most of the astronomical objects.
I have developed an experimental technique to convert my astropics to a artificial volumetric models.

My 3-D experiments are a mixture of science and an artistic impression. I collect distance and other information before I do my 3-D conversion. Usually there are known stars, coursing the ionization, so I can place them at right relative distance. If I know a distance to the nebula, I can fine tune distances of the stars so, that right amount of stars are front and behind of the object.

I use a “rule of thumb” method for stars: brighter is closer, but if a real distance is known, I'm using that. Many 3-D shapes can be figured out just by looking carefully the structures in nebula, such as dark nebulae must be at front of the emission nebulae in order to show up etc...

The general structure of many star forming regions is very same, there is a group of young stars, as an open cluster inside of the nebula. The stellar wind from the stars is then blowing the gas away around the cluster and forming a kind of cavitation – or a hole — around it. The pillar-like formations in the nebula must point to a source of stellar wind, for the same reason.

How accurate the final model is, depends how much I have known and guessed right. The motivation to make those 3-D-studies is just to show, that objects in the images are not like paintings on the canvas but really three dimensional objects floating in the three dimensional space. This generally adds a new dimension to my hobby as an astronomical imager.






Wednesday, August 17, 2016

Cinemascope format panoramas from my astro photos



I have worked with a cinemascope format movie theatre presentation from my photos. This is an extra wide ~21:9 format used in theaters. The actual film is not ready yet but I have some of my images converted to this ultra wide format. I think they will look great at a large movie screen! I'll publish some of individual panoramic format photos here, images are downscaled for the web.


Cinemascope format details from the Veil Nebula supernova remnant


Witch's Broom Nebula (Western Veil)
Be sure to click for a full resolution version!

Image details can be seen HERE


Pickering's Triangle
Be sure to click for a full resolution version!

Image details can be seen HERE


An older wide field shot about the whole Veil nebula supernova remnant

The Witch's Broom Nebula locates at the most right and the Pickering's Triangle locates at center right. Image details can be seen HERE






Monday, August 15, 2016

New imaging season about to start



The mandatory Summer pause will be over soon. We'll have astronomical darkness again at September 5. up here 65N. After that, I'll be able to shoot some new material. 

I have made a poster format collection out of my images, with different instruments. Photos are shot between 2005 and 2016. An average exposure time per photo is around 25h. The actual exposure times varies between10 to 150 hours.

My photos between years 2005 and 2016.
Images in four posters are shot with different instruments. 
Please, click the posters to see them in full scale!


Images shot with Canon EF 200mm f1.8 camera lens.
QHY9 astrocamera and the Baader narrowband filters

Info and image details for each photo can be found from HERE


Images shot with Tokina AT-X 300mm f2.8 camera lens.
QHY9 astrocamera and the Baader narrowband filters

Info and image details for each photo can be found from HERE


Images shot with Meade LX200 GPS 12" @ ~f6 telescope.
QHY9 astrocamera and the Baader narrowband filters




Images shot with Celestron Edge HD 1100 telescope.
Apogee Alta U16 and Astrodon narrowband filters