Difference between revisions of "Astrophotography"

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=Messier 82=
 
[[file:Messier82.jpg|thumb|200px|right|Messier 82]]
 
[[file:Messier82-SN 2014J.jpg|thumb|200px|right|SN 2014J in Messier 82, Messier 81 to the right. Taken Jan 29, 2014]]
 
Messier 82 (also known as NGC 3034, Cigar Galaxy or M82) is a "remarkable galaxy of peculiar type in constellation Ursa Major. It is usually classified as irregular, though probably a distorted disk galaxy, and famous for its heavy star-forming activity, thus a prototype member of the class of starbursting galaxies." <ref>[http://messier.seds.org/m/m082.html THE MESSIER CATALOG, http://messier.seds.org/]</ref>
 
 
SN 2014J, a Type Ia supernova, was observed in the galaxy on 21 January 2014.  I photographed this supernova on January 29th, 2014, shortly after it was discovered.
 
=SN 2014J=
 
'''SN 2014J''' is a type Ia supernova in Messier 82, and was discovered in mid-January 2014.  It is the closest type-Ia supernova discovered in the past 42 years. The last supernova that was unambiguously closer to Earth than SN 2014J was SN 2004dj, which was of Type II-P supernova.  This supernova occurred in the galaxy NGC 2403.  Due to the brightneszs of this supernova, many automated search programs which search for supernovas actually ignored this one (assuming error). It was discovered accidentally during an undergraduate teaching session at University of London Observatory.  I shot this on January 29th, two days before SN2014J stopped brightening, which reached its peak brightness at magnitude 10.5.
 
  
 
=Notes=
 
=Notes=
 
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Revision as of 12:41, 18 May 2014

Wikipedia describes Astrophotography as "a specialized type of photography that entails recording images of astronomical objects and large areas of the night sky. The first photograph of an astronomical object (the Moon) was taken in 1840, but it was not until the late 19th century that advances in technology allowed for detailed stellar photography. Besides being able to record the details of extended objects such as the Moon, Sun, and Planets, astrophotography has the ability to image objects invisible to the human eye such as dim stars, nebulae, and galaxies]. This is done by long time exposure since both film and digital cameras can accumulate and sum light photons over these long periods of time. In professional astronomical research, photography revolutionized the field, with long time exposures recording hundreds of thousands of new stars and nebulae that were invisible to the human eye, leading to specialized and ever larger optical telescopes that were essentially big "cameras" designed to collect light to be recorded on film. Direct astrophotography had an early role in sky surveys and star classification but over time it has given way to more sophisticated equipment and techniques designed for specific fields of scientific research, with film (and later CCD cameras) becoming just one of many forms of sensor."

I personally conduct most of my astrophotography by leveraging the telescopes available to me via iTelescop.net. I started taking my first pictures using my own telescope in my teens, but as my professional career had me move over different parts of the country, it became difficult to impractical to continue shooting direct. In addition, the proper mounts and camera equipment can be very costly, and the trade-off of leveraging an IP based array of telescopes allows me the capability of shooting far more objects throughout the year.

Currently, I am building out my portfolio of images.

I am also shooting the entire Messier Catalog leveraging these telescopes. With still more than 1/2 the year left, I have captured about 70% of the Messier objects.

Here a few samples. Visit the link above for more! Here's NGC 5005


Notes