Spectroscopy is the study of the spectrum of light emitted or reflected by objects and what that tells us. Stellar Spectroscopy deals with stellar objects, primarily stars. We can learn a lot about an object from its spectrum including the chemical makeup and speed and direction of motion.
It is my hope that taking these images increases my knowledge of the universe around me. Hopefully it will also help you understand it a little more as well. Take a look around and feel free to use the contact form if you have any questions.
I am collecting these spectra with my main imaging scope an Orion Premium 110mm f/7 ED APO. I am using the RSpec Star Analyser 100 Astronomical Diffraction Grating Filter to create the spectrum. My camera is a Nikon D7000 DSLR. These are processed in Rspec image processing software. Note that these have been corrected for instrument response and normalized:
There are seven general types from hottest to coldest they are O, B, A, F, G, K and M.
The numeral after the type letter is part of the Morgan-Keenan system indicating the tenths of percentage between one type and another. For example there are ten tenths between an A0 and F0, but only one tenth between A9 and F0.
Finally, the Roman numeral is the width of specific absorption lines roughly translating to the size of the star. i represents a supergiant, iii being a giant and v being a main-sequence star.
Other types exist but are not very common, some of which are listed under the seven standard types. Below are some stellar spectroscopy examples of different star types all in one column so you can easily see some differences.
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