A Guide on Choosing The Right Telescope Eyepieces
The optical elements of Eyepieces allow you to focus light collected by a Telescope, so you can observe a sharp view of the object or area where the Telescope is pointing. It may seem like a small link in the chain, but it has a large effect on your Telescope's optical system, and finding suitable Eyepieces will greatly enhance its potential.
With so many options to choose from, selecting the right set of Eyepieces for you and your Telescope can seem a little tricky. This guide offers some insight and explanations on different Eyepiece types, specifications, and how it all ties together to optimize your astronomy and astrophotography sessions!
Focal Length and Magnification
Focal Length is an important specification to consider when determining the magnification, also known as power, of the combination of an Eyepiece and the Telescope it is being used with. The following formula will help you determine the magnification based on your eyepiece and Telescope's specifications:
- A 20mm Eyepiece on a 2000mm telescope (2000/20) gives you 100 power (100x). This makes objects appear 100 times closer to you through the telescope than they appear to your unaided eye.
Field of View: Apparent and True
An Eyepiece's apparent Field of View is expressed in degrees (°). It is how much of the sky seen edge-to-edge through the Eyepiece alone. Eyepiece apparent fields range from narrow (25° - 30°) to extra-wide angle (80° or more).
An Eyepiece's true Field of View is the angle of sky seen through the Eyepiece when it's attached to the telescope. The true field can be calculated using the following formula:
True Field = Apparent Field / Magnification
For example, suppose you have an 8" Schmidt-Cassegrain telescope with a 2000mm focal length, and a 20mm Eyepiece with a 50° apparent field. The magnification would be 2000mm / 20mm = 100x. The true field would be 50 / 100, or 0.5° - about the same apparent diameter as the full Moon.
Eye Relief and Corrective Lenses
Eye Relief refers to the distance between your eye and the Eyepiece lens when the image is in focus. Eye relief is traditionally in proportion with focal length: the shorter the focal length, the shorter the eye relief. However, some of the more modern Eyepiece designs provide long eye relief regardless of focal length, which is especially beneficial to those who wear glasses. If you like to keep your glasses on while using a telescope, the eye relief of an Eyepiece is an important specification to consider (we recommend looking at long eye relief eyepieces).
2mm - 4.9mm Eyepieces
These produce very high magnifications and work best on long focal length refractors and Schmidt-Cassegrains. Unless you have very steady seeing conditions, this range more than likely will produce too much magnification for other telescope types.
5mm - 6.9mm Eyepieces
These make good planetary detail and double star Eyepieces for long focal length telescopes and will work satisfactorily in shorter focal length telescopes with steady seeing conditions.
7mm - 9.9mm Eyepieces
Ideal high magnification Eyepieces for shorter focal length telescopes, and serve as good planetary, double star and lunar detail units.
10mm - 13.9mm Eyepieces
Good to use across all focal lengths and offer great background darkening capabilities for studying planetary nebula, small galaxies, planetary details and lunar details.
14mm - 17.9mm Eyepieces
a great mid-range magnification for all focal lengths and will help resolve globular clusters, galaxy details, and spot planetary nebulae.
18mm - 24.9mm Eyepieces
Works nicely on long focal length Telescopes to show wide field and extended objects. Shorter focal length telescopes will enjoy great mid-range magnification of galaxy clusters and large open clusters.
31mm - 39.9mm Eyepieces
For longer focal length- good for large nebula and open clusters. For shorter focal length, they are great for large objects such as the Orion nebula, views of the full lunar disc, large open clusters and more. Also makes for good "locator" Eyepieces in all focal lengths.
31mm - 39.9mm Eyepieces
These are well suited for shorter focal length telescopes for extended views and large, starry fields.
These are exclusively the domain of shorter focal length telescopes. This magnification range is superb for showing large, starry vistas as well as extended nebula with star fields, etc.
How Exit Pupil Relates to Power
Exit pupil refers to the size of the bundle of light rays coming out of the Eyepiece. Exit pupil size (in inches) can be calculated by:
In order for all the light rays to the enter your pupil, the exit pupil must be smaller than the pupil of your eye. A young person's fully dark-adapted eyes may have 7mm-wide pupils. As you age, the maximum pupil diameter decreases. For middle-aged adults, the practical maximum is closer to 5mm.
At the other end of the scale, at magnifications that yield an exit pupil in the range of 0.5mm to 1.0mm, empty magnification begins to set in, depending on the quality of your telescope and your eyes. In other words, this much magnification really starts to degrade the image you see.
How Many Eyepieces Do I Really Need
Although there is no specific number of Eyepieces you should own, with a few different telescope Eyepieces, you have a better chance of hitting the optimal power for the particular object you are observing, given the sky conditions at the time. Usually, you'll want to start out with low power (i.e., long Eyepiece focal length, such as 25mm or 30mm) to get the object in the field of view of the telescope. Then you might try a slightly higher-power (shorter focal length, maybe 18mm or 15mm) Eyepiece and see if the view looks any better. If it does, swap in an even higher-power Eyepiece, etc., until you hit that "sweet spot" where image brightness, image scale, and the amount of visible detail combine to form the most pleasing view.
What about Barlow Lenses?You can also choose a long focal length Eyepiece with comfortable eye relief and use image amplifiers to increase power, such as a Barlow lens. A Barlow increases the effective focal length of an objective lens, increasing the magnification. The idea is that 2 Eyepieces and a Barlow will give you the flexibility of magnification of 4 Eyepieces, and will give higher magnifications with less powerful Eyepieces.
Using different Eyepieces can profoundly increase the versatility and functionality of any telescope. While shopping for Eyepieces, remember these basic tips:
- Consider the focal length of your telescope, or telescopes, to make sure the Eyepiece will provide an appropriate magnification to suit your needs.
- If you wear eyeglasses while using a telescope, pay attention to the eye relief specification of different Eyepieces, as ample eye relief can improve comfort and ease-of-use while wearing corrective lenses.
- Depending on your observing goals, consider the apparent field of view of your Eyepiece choices.
- If versatility is paramount, consider a zoom Eyepiece or Barlow lens to increase the number of possible magnifications to use.