Itâ€™s not often that we come across a telescope thatâ€™s an all-rounder, but we were quite taken with the Celestron NexStar 6SE, especially since it can be used by beginners, who are just venturing into astronomy, and more seasoned astronomers with an excellent knowledge of the night sky.Â
Given its capabilities, this telescope is quite difficult to outgrow â€” it can be used as an observer’s main instrument or even as an add-on to existing kit, providing the astronomer with the flexibility of a quicker, fuss-free skywatching experience over more complex setups. The NexStar 6SE is easy to accessorize with additional eyepieces, red dot finders, filters and star diagonals, which is essential for bettering your views of solar system and deep-sky targets.Â
The telescope offers the opportunity to dabble in astrophotography, however, you will require a T-ring or adapter if you choose to image with a CCD, CMOS or DSLR or a smartphone adapter for photography with your iPhone or Android.Â Many beginners might find the idea of using a GoTo telescope daunting, but Celestronâ€™s comprehensive manuals and software will put any worries to bed.
Celestron NexStar 6SE key specs
Optical design: Schmidt-Cassegrain
Aperture: 150 mm (5.91″)
Focal length: 1499 mm (59″)
Focal ratio: f/10
Eyepiece focal length: 25 mm (60x)
Total kit weight: 21 lbs. (9.53 kg)
Mount type: Single-arm fork, alt-azimuthÂ
A single 25mm PlĂ¶ssl eyepiece is supplied with the Celestron 6SE to provide a magnification of 60x, but so much more can be achieved from the optical system, so we advise purchasing a selection of eyepieces and filters â€” bearing in mind that the highest useful magnification is 354x â€” to get the very best out of this telescope.
Setting this Schmidt-Cassegrain up took next to no time at all, and we were impressed with the quality of many of its components, especially its red dot finder and sturdy stainless steel tripod. The robust build of the NexStar 6SE promises to last years of observing sessions, provided it is treated with care. Additionally, since catadioptric telescopes can succumb to moisture during observations, a dew shield would be a worthy investment to protect the optical system and prolong the telescope’s lifetime.
Weighing in at 21 lbs. (9.53 kilograms), the Celestron 6SE is a touch on the heavy side due to the technology and components compacted into it: a minor inconvenience for those who might need assistance in transporting their ‘scope from one location to another but, despite this, the NexStar 6SE boasts quality over lighter instruments, so we don’t consider this to be a major setback in the design.
What is quite a large flaw is the requirement of eight AA batteries to operate the computerized alt-azimuth fork mount. Sadly the NexStar 6SE drains batteries quite quickly, making using it quite frustrating when the computer “clocks out” whilst you’re engrossed in observing. Over time â€” and with constantly replacing the batteries â€” using the telescope has the potential to become quite an expensive enterprise.
Undeterred, we tried out rechargeable batteries as a means to investigate an alternative route for powering the NexStar 6SE, but discovered that the telescope would act strangely with low power and found a quick loss of charge was still a problem. We strongly recommend purchasing an AC power cord from Celestron â€” unfortunately, this is not included with the telescope.
Celestron promises a great deal when it comes to the operational abilities of this instrument, so we were delighted to discover that the NexStar 6SE did exactly what it says on the tin when we took it out to test on a clear December evening.Â
For one, the star alignment â€” which employs Celestron’s SkyAlign technology and enables calibration for accurately finding targets â€” was impressively simple, and it wasnâ€™t long before we were all set up and ready to tour the winter night sky.Â
Our first target was the Orion Nebula (Messier 42), which can be found just below Orionâ€™s Belt and is easily visible to the naked eye as a fuzzy patch, glowing at magnitude +4. Using the control to instruct the NexStar to view this diffuse nebula, the computerized mount ran smoothly and the GoTo technology was very accurate in locating objects. The Trapezium Cluster, for instance, is nestled at the heart of the Orion Nebula and was found to be aligned close to the centre of the field of view.Â
When we brought the heart of the star-forming region into view we did notice a degree of vibration while focusing but, once finished, observations could be taken in without any hindrance. Thanks to the excellent StarBright XLT optical coating our observations of the nebula and its stellar members were very crisp, bright and clear, with no defects in the optics.
While the telescope slews to its target â€” this model possesses nine speeds â€” the mount does make a great deal of noise, particularly when we used the moderate to fast settings. If you find the noise off-putting and are happy to observe without a computerized mount, itâ€™s quite easy to switch over to a manual one given that the tube possesses a Vixen-style dovetail. Remember though, you will need a Vixen adapter if you want to fit the tube to another Celestron mount.
Heading back inside to warm up with a hot drink, we decided to give the NexStarâ€™s lunar, solar and sidereal tracking a test and left it focused on a star. Upon returning to the telescope 30 minutes later, we found that our target hadnâ€™t drifted out of the field of view, highlighting the instrumentâ€™s suitability for long-exposure astrophotography.Â
With the nearly-full moon taking pride of place quite late into the evening, we took the opportunity to view our natural satelliteâ€™s cratered surface. The lunar views that we saw were impressive: the NexStar revealed well-defined crater walls and lunar mare to a very high standard â€” the craters Copernicus and Tycho were particularly impressive and crystal clear using the modest 5.91â€ť aperture.
With gas giant Jupiter also at a good position in the sky and a few degrees away from the moon, the NexStar made short work of locating the planet and its four largest satellites: Io, Europa, Ganymede and Callisto. Jupiter was visible in the field of view as a bright disk, with Ganymede and Europa appearing as sharp points of white light flanking the giantâ€™s left limb, while Io and Callisto could be found relatively near to the planetâ€™s right.Â Faint brown and cream bands were visible across Jupiter’s surface.
As we discovered when observing the Orion Nebula, views through the Schmidt-Cassegrainâ€™s optics were impressively clear and bright with no chromatic aberration â€” or colour fringing â€” evident. Jupiter will only continue to make an excellent target by increasing the telescopeâ€™s magnification, something we highly recommend either by using a Barlow lens as well as additional eyepieces with a 1.25â€ť fitting. A blue filter will provide excellent contrast, playing up the rills and festoons in the gas giant’s cloud layers and promote easy viewing of the planetary king’s famous storm: the Great Red Spot.
The NexStar 6SE is a great representation of Celestron’s iconic telescope range. Given its capabilities and revolutionary technology, the price tag is reasonable, but the package does lack a good selection of eyepieces that would provide an even greater variety of views. The setup offers a lifetime of observations provided it is treated with care and little-to-no maintenance is carried out on the optics and computerized mount.Â
The NexStar 6SE’s alignment technology takes the hassle out of calibrating the instrument and, once completed, the GoTo system is exceedingly accurate in locating targets at the touch of a button. The telescope’s database boasts 40,000 targets to slew to but, despite the useful magnification of 354x, it’s not possible to view all objects with clarity even with extra accessories, such as eyepieces and a Barlow Lens. In some cases though, astrophotography picks out some of the fainter targets that are visible in telescopes with larger apertures.
The GoTo facility does drain batteries and is a tad on the noisy side when in operation, but a constant power supply and taking the telescope to a remote location (if you’re concerned about waking the neighbours!) are easy fixes to an otherwise superb telescope.