Someday I am going to get one of these telescopes.
Aperture: 16-Inch. Focal Length: 4064mm. Focal Ratio: f/10. Zero Image-Shift Microfocuser, 2-Inch Diagonal Mirror w/UHTC, 26mm Series 5000 5-Element Plössl Eyepiece, 18v AC Adapter. SUPPORT SOLD SEPARATELY . You may provide you own pier or purchase separately either a 16" Permanent Altazimuth Pier, 16" Permanent Equatorial Pier or the Giant Field Tripod .
The most widely used research quality telescope now features the most advanced optical system. Meade's LX200-ACF brings Advanced Coma-Free (ACF) optics within reach of aspiring astronomers everywhere. Nearly every observatory reflector in the world uses an aplanatic (coma-free) optical system like the Ritchey-Chrétien (RC), including NASA's Hubble Space Telescope. Now you can own similar optics to what the professionals use. The LX200-ACF includes all the field-proven features of the LX200 including GPS, Primary Mirror Lock, Oversized Primary Mirror, SmartDrive; Smart Mount, AutoStar II and more. The new LX200-ACF. It's the biggest news in astronomy since, well, the LX200. The "advanced" in Advanced Coma-Free. A traditional Ritchey-Chrétien (RC) is a type of reflector that delivers a coma-free, flat field of view via hyperbolic primary and secondary mirrors. Because the mirrors in these telescopes have always been very expensive to make, few amateur astronomers could enjoy them. Fortunately, Meade engineers developed a radical new Advanced Coma Free design by combining a hyperbolic secondary mirror with a corrector-lens-and-spherical-primary-mirror combination that performs as one hyperbolic element. This ACF design produces a coma-free, flat field of view that rivals traditional RC telescopes at a fraction of the cost. The design even eliminates diffraction spikes and improves astigmatism, both of which are inherent in the traditional RC design.
When reviewing Meade's LX200-ACF Advanced Coma Free, Sky and Telescope magazine said, " [It] does indeed perform like a [Ritchey-Chrétien]. The difference between the off-axis images (compared to a Schmidt-Cassegrain) was dramatic to say the least."