|Help and Advice|
|Transit of Mercury 2016|
|Giving long exposures on a digital camera|
|Photographing star trails|
|Predicting the ISS and other satellites|
|Using a mirror to view a partial eclipse|
|Simple Guide to Viewing the Space Station|
|Choosing a Telescope|
|Tips when projecting the Sun|
|Starting to Use Your Telescope|
|Imaging with a DSLR through the telescope|
|Buying a telescope for a child|
|Photographing a partial eclipse|
There are many types of telescope but which is best for solar? Before look at these telscopes it's worth mentioning a bit about telescope mountings. A telescope must be firmly mounted if you are going to do any real observing. The image must be steady and otherwise you will not see much detail. Astronomical telescope mountings have two basic designs:
The refractor telscope uses a lens at the front to focus the light from a celestial object. A small refractor of about 60mm is the ideal size of telescope for solar observing. If you have access to something a bit larger, such as a 80 to 90mm refractor so much the better as that will on most days show a bit more detail but avoid using anything larger than 100mm. Also remember the larger the scope, the heavier it will be. The best telescope is often the one that you use the most often because it is easy to set up and use.
The telescope shown here is a Vixen 80mm refractor and it is mounted on a Super Polaris equatorial mounting. Both are quite old now but they work so well that I would not even think of changing them. The telescope in the image has a full aperture solar filter fitted.
Eyepieces: If you use the projection method then stick to using the relatively cheap eyepieces such as Plossls or Kellners (they are still available most from second-hand suppliers). Be aware that over time the heat and UV from the Sun can damage eyepieces by making the cement between the lenses turn cloudy. If you use a full-aperture solar filter then you can use any eyepiece you like as the filter will protect the eyepiece as well as your eyes! Eyepieces such as Plossls, Kellners, Orthoscopic give sharp contrasty views.
A reflector is a telescope that uses a specially curved mirror to focus the light entering the telescope. The light is reflected off the mirror, usually at the rear of the telescope body, sending the light back up the tube to be deflected into an eyepiece.
Do not use reflector type telescope for solar projection as the telescope can overheat. Instead, consider buying a full aperture solar filter to fit over the front of the telescope. Alternatively, you do not always need a solar filter to cover all of the telescope aperture but instead purchase an "off-axis" mask into which a smaller diameter solar filter can be screwed into one of the portholes in the mask. This reduces the telescope aperture and increases the telescope focal ratio.
These telscopes use a combination of a lens (often referred to as the "corrector plate" or "meniscus lens") and a specially shaped mirror to focus the incoming light to form an image.
These telescope can only be used for solar observing with a full aperture solar filter with an "off-axis" mask (as shown here). The solar filter aperture in the image is off-centre because the secondary reflector is in the centre of the meniscus lens at the front of the scope. If the solar filter aperture was also central it would be blocked by the secondary effectively stopping the scope from working.
Never use these scopes for solar projection as they will overheat causing damage to the telescope.
HYDROGEN ALPHA AND CALCIUM SCOPES:
These telescopes are specifically made to view the Sun in the red spectral line of hydrogen. By looking (and imaging) in this wavelength of light we can see the solar Chromosphere. Here we find the solar prominences, filaments and solar flares. Observing the Sun in H-alpha is not cheap but it is highly rewarding especially during periods of high solar activity.
There are a number of manufacturers of H-alpha telescopes. Lunt is a good make as is the Coronado PST (Personal Solar Telescope) shown here.
There is a similar scope for imaging in the blue light of calcium (CaK) also available from Coronado. These are harder to use as you have to image the Sun rather than look at it visually, but they are rewarding. More here.