OK, we are going to start from telescope basics and work our way forward. You will learn about types of telescopes, the advantages and disadvantages of each
type for both astrophotography and visual work. We will also research types of mounts and the limitations of each type for astrophotography. We will also
look into telescope manufacturers such as Meade, Celestron, Orion, Vixen, Skywatcher etc. and what they have on offer.
Be sure to keep checking back as I will be adding more information all the time as well as reporting any breaking news or new telescope technology especially as it regards astrophotography.
So lets start with telescope types.
The job of a telescope is to collect light, not to maginify an image (the eyepiece does that job). The larger the objective (the part that collects the light) whether it be a lens, in refractors, or a mirror, in reflectors, the more light the telescope will collect. The more light you can collect, the more detail you will be able to capture, and also important for astrophotography, the shorter your exposures will need to be to capture this detail.
Refractor Telescopes
The type of telescope most people visualize when they hear the word telescope is the 'Refractor'. This is what Galileo used for his break-thru discoveries. A refractor has an objective lens at the front which passes the light straight through to the back of the tube, focusing this light at an eyepiece or for astrophotography a camera.
Advantages:
-No central obstruction (see more in the reflecting scopes), giving higher contrast.
-Due to the simple design they require little maintenance.
-Excellent for planetary and lunar viewing and photography.
-Excellent for wide field viewing and astrophotography especially in shorter focal lenghts (more on this later).
-Because the objective is permanently mounted and aligned there is no need for collimation (again more on this in another article).
-Excellent color in apochromatic and ED (Extra Dispersion) designs.
Disadvantages:
-Costlier per inch of aperture (objective) than reflectors and catadioptric telescopes.
-Can become bulky and dificult to manage, especially in larger lens designs.
This is a good example of a starter astrophotography telescope in a refractor design:
C80ED-R GT Refractor
Newtonian Telescopes
This design was invented by Sir Isaac Newton (he of the apple on the head fame). Instead of a lens at the front of the tube this telescope design uses a concave, parabolic mirror to collect light reflecting it back towards the front of the tube to a flat diagonal mirror which reflects the light out the side of the telescope to the eyepiece or camera for astrophotography.
Advantages:
-Lowest cost per inch of all the telescope designs.
-More light gathering power per dollar because of the lower cost design.
-Absolutely perfect color rendition.
-More compact design compared to a refractor of similar light gathering ability.
-Excellent contrast for planetary and lunar astrophotography and viewing in longer focal lengths.
-Can get excellent wide-field astrophotos and short exposures in shorter focal lengths.
Disadvantages:
-Slight loss of contrast due to the central obstruction (the flat secondary mirror) as compared to a refractor.
-Requires more maintenance, such as colimation (discussed in another article) which is vital for great results in your astrophotography, although you will learn how to do this quickly with practice.
Meade now has a hybrid version of the newtonian called a schmidt newtonian. It is an excellent starter telescope for astrophotography.
Telescope, Meade LXD75 SN-8" with UHTC
Schmidt-Cassegrain Telescopes
This is a very popular design, with a high tech look. Also known as a CAT (Catadrioptics). They use a combination of lenses and mirrors to collect and focus the light onto the eyepiece or camera. The light enters the telescope through a thin 'lens' called a schmidt corrector plate, goes to the back of the scope to a spherical primary mirror which relects the light back towards the front. Here the light strikes another mirror, the secondary mirror which is mounted on the corrector plate. This secondary mirror then reflects the light back towards the back where it is focused onto a hole in the primary mirror where the light is collected by an eyepiece or your astrophotography camera.
Advantages:
-Compact and portable.
-Low maintenance although once again colimation is required for top performance.
-Many, many astrophotography accesories available.Cheaper per inch of aperture as compared with refractors.
-Excellent all-round telescope, good to very good for both visual and astrophography.Very good for planetary and lunar viewing and astrophotography.
-Very good to excellent for DSO (Deep Space Object) astrophotography with a caveat (see the disadvantages).
-Very good to excellent optics, both Meade and Celestron are putting out excellent optics on a consistant basis.
Disadvantages:
-Costlier per inch of aperture as compared with Newtonian telescopes.
-Loss of contrast due to the central obstruction which is even larger than that in the Newtonian scopes.
-Due to their longer focal lengths the field of view is smaller and longer exposures are required for astrophotography, although a lens known as a focal reducer is available which minimizes or removes this problem. The longer focal length is actually an advantage in planetary and lunar photography.
This is my main scope:
C9.25-S GT Schmidt-Cassegrain w/XLT Coatings
Maksutov-Cassegrain
The Maksutov-Cassegrain telescope design is basically the same as the Schmidt-Cassegrain design except it uses a meniscus lens at the front instead of a Schmidt corrector plate. The main advantage to the Mak telescope design is you will get sharper higher contrast planetary and lunar images when compared with the Schmidt design.
In our next article we will discuss different mounts and their advantages and disadvantages.
Come back soon for more articles on Telescopes For Astrophotography
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