THE "PIGGYBACK" METHOD

ASTROPHOTOGRAPHY

THE “PIGGYBACK” METHOD

As discussed in the previous article on fixed camera photography, the Earth turns at the rate of 15° per hour, causing long exposure photographs of stars to come out as trails. Sooner or later you’ll want to move on from taking star trails and take pictures of the night sky as you see it.

To do this, the camera needs to track the stars, turning at the same rate as the Earth. This is obviously much more involved, but can yield some spectacular pictures of wide sections of sky, revealing stars that cannot be seen even with a telescope.

To be able to properly track the stars you need a camera rotating at a rate of 15° per hour about an axis aligned with the Earth’s axis. There are two main ways to do this:

BARN DOOR TRACKER- THE CHEAP WAY

For this method you need:

  • A camera that lets you take long exposures with cable release as discussed in the ‘fixed-tripod’ article.
  • Some wood and stuff

I’ve never tried this, but for the practical among you or those of you who are on a very tight budget this might be for you. Basically it requires building a wedge so that the camera is aligned with the Earth’s axis, and then some kind of hinge that can be turned at a constant rate by a manually operated screw or a motor. Having never tried this I can’t really help you much with it (hence “some wood and stuff”), but here are some links to sites that may be able to help you:

PIGGYBACK

For this method you need:

  • A camera that lets you take long exposures with cable release as discussed earlier
  • An equatorially mounted telescope- this mount must be very stable or the vibrations will ruin the picture.
  • Some method of attaching your camera to your telescope

Please note that the telescopes optics are not used at all with this method, it is simply being used as a platform for the camera (piggybacking).

Set up your equatorial mount as normal, aligned with the celestial pole. Attach your camera so that it points in the same direction as the telescope, and focus the camera on infinity (don’t forget this bit, or you’ll be wasting your time!). This can be done with any thing- I use (carefully) a clamp off my drum kit! However there are piggyback attachments available for most telescopes with a standard fitting that fits any camera’s tripod attachment.

GUIDING

Throughout the course of the exposure you will have to keep moving the telescope very slowly, so that the stars in it’s field of view stay centred. The advantage with using a telescope as a mount rather than a ‘barn door’ is that you can use the telescope itself to guide the exposure, making sure that the camera is tracking the stars. Even if you have a motor-drive, you will still have to keep checking it, as no guidance is perfect. Make sure that a bright star in the area you want to photograph is centred in the telescope’s eyepiece.

It helps to have an eyepiece with a crosshair on it, but good results can be achieved without it. If, while the camera’s shutter is open, you keep this star in the centre of the eyepiece by moving the RA axis, the photo will come out perfectly, with all the stars exposed as single points. In reality, though, its not perfect, and you must allow for some inaccuracy in your guiding.

The accuracy of your guiding depends on the ratio of the magnification of the camera’s lens and the eyepiece (as well as your skill and patience!). If the eyepiece you are using gives 40x magnification and the camera lens is 50mm (considered 1:1- 1x magnification) any error in your guiding (or vibration) will be 40x smaller on film.

If the ratio is too low (e.g. you are using a telephoto lens or the mount is unstable and causing vibrations) then your errors will be visible on film and ruin the photograph, so either increase the magnification, or decrease the magnification focal length) of the camera lens. Don’t have the ratio too high though so that you panic over the what looks like a large deviation in the eyepiece but is really only tiny on film.

Bear in mind that the length of your exposure is limited by light pollution, and also by your patience! Start off with shorter exposures with wide-angle lenses on the camera, and work your way up.

You may be wondering if you can do this with an Alt-az mounted scope, if you track carefully. The answer is you can, to some extent. Because the camera is not aligned with the Earth’s axis, the field of view appears to rotate slowly even if you track perfectly (causing an effect similar to star trails at the pole). In my experience you can take exposures on a 35mm lens up to a couple of minutes before this sets in. If possible, align it in polar mode.

This is a very challenging method- there are many pitfalls that could ruin your shot. Don’t get discouraged- this method has a lot of potential and the most fantastic photographs cam be taken with just an ordinary camera and telescope accurately and carefully guided. I’ve personally found this to be the most rewarding method.

Here are some excellent examples:

ORION

Orion_II

ORION

HYADES AND THE PLEIADES

Hyades

These were all taken with a 35mm lens guided for about 10 mins on ISO 400 film. The second two were taken on a proper equatorial mount, the first was taken mounted on my ETX in polar-align mode which was very shaky but still usable.

LINKS

  • Images
    Have a look at some more pictures. Taken any good pictures with this method? You can display them on my site in the gallery.

As you can see from some of the above links, there is no real upper limit on the kind of pictures you can take this method. However if you want to take close up pictures of objects instead of wide-field pictures, try the afocal method (finally- one for all you digital camera owners out there!)…

 

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