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INDEX

OPTICAL SYSTEMS

ACF AND SC OPTICAL SYSTEMS

APPENDIX D:

Unlike Schmidt-Cassegrain systems, Meade’s

Advanced Coma-Free (ACF) optical system provides

razor-sharp pin-point star images all the way to the very

edge of the ﬁ eld of view. This aplanatic (coma-free)

optical system brings the highest level of performance

to the amateur astronomer.

In the ACF design of the Meade LT Series, light enters

from the right, passes through a thin lens with 2-sided

aspheric correction (“correcting plate”), proceeds to

a spherical primary mirror, and then to a hyperbolic

secondary mirror. The hyperbolic secondary mirror

multiplies the effective focal length of the primary

mirror and results in a focus at the focal plane, with light

passing through a central perforation in the primary

mirror.

All models of the Meade LT includes oversize primary

mirrors, yielding a fully illuminated ﬁ eld-of-view

signiﬁ cantly wider than is possible with a standard-size

primary mirror. Note that light ray (2) in the ﬁ gure would

be lost entirely, except for the oversize primary. It is

this phenomenon which results in Meade ACF having

off-axis ﬁ eld illuminations about 10% greater, aperture-

for-aperture, than other systems utilizing standard-size

primary mirrors. Field stops machined into the inside-

diameter surface of the primary mirror bafﬂ e tube

signiﬁ cantly increase lunar, planetary, and deep-space

image contrast. These ﬁ eld stops effectively block off-

axis stray light rays.

In the Schmidt-Cassegrain design of the Meade LT,

light enters from the right, passes through a thin lens

with 2-sided aspheric correction (“correcting plate”),

proceeds to a spherical primary mirror, and then to

a convex secondary mirror. The convex secondary

mirror multiplies the effective focal length of the

primary mirror and results in a focus at the focal plane,

with light passing through a central perforation in the

primary mirror.

All models of the Meade LT Schmidt-Cassegrain

includes oversize primary mirrors, yielding a fully

illuminated ﬁ eld-of-view signiﬁ cantly wider than is

possible with a standard-size primary mirror. Note that

light ray (2) in the ﬁ gure would be lost entirely, except

for the oversize primary. It is this phenomenon which

results in Meade Schmidt-Cassegrains having off-axis

ﬁ eld illuminations about 10% greater, aperture-for-

aperture, than other Schmidt-Cassegrains utilizing

standard-size primary mirrors. Field stops machined

into the inside-diameter surface of the primary mirror

bafﬂ e tube signiﬁ cantly increase lunar, planetary,

and deep-space image contrast. These ﬁ eld stops

effectively block off-axis stray light rays.

Primary Baffle Tube

Field Stops

Primary Mirror

Ray (1)

Ray (2)

(2)

(1)

(2)

(1)

Secondary

Mirror

Correcting

Plate

Secondary

Baffle

(2)

(1)

Focal

Plane

Primary Baffle Tube

Field Stops

Primary Mirror

Ray (1)

Ray (2)

(2)

(1)

(2)

(1)

Secondary

Mirror

Correcting

Plate

Secondary

Baffle

(2)

(1)

Focal

Plane

The Meade Advanced Coma-Free Optical System

The Meade Schmidt-Cassegrain Optical System