The Modified Dall-Kirkham telescope utilizes an elliptical primary and spherical secondary mirror as in the conventional Dall-Kirkham configuration, but also includes a lens group (usually two or three lens elements) ahead of the focal point to improve off-axis image quality. The primary mirror conic constant is slightly different from that for a conventional Dall-Kirkham and must be optimized along with the lenses during design. The usable field is much better than the Ritchey-Chrétien telescope without corrector, and over very wide spectral bands, typically 380 to 950 nanometres (edges of UV-A and near infrared) if the corrector is made of quartz. (With a corrector, the Ritchey-Chrétien System also has a better and bigger field.)
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| - ドール・カーカム式望遠鏡 (ja)
- Modified Dall–Kirkham telescope (en)
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| - ドール・カーカム式望遠鏡(Dall-Kirkham telescope )はカセグレン式望遠鏡の一形式である。 現在は一般に「楕円面主鏡と球面副鏡を用いたカセグレン型の反射望遠鏡」と説明されるが、発明者の考えは少し違う。 (ja)
- The Modified Dall-Kirkham telescope utilizes an elliptical primary and spherical secondary mirror as in the conventional Dall-Kirkham configuration, but also includes a lens group (usually two or three lens elements) ahead of the focal point to improve off-axis image quality. The primary mirror conic constant is slightly different from that for a conventional Dall-Kirkham and must be optimized along with the lenses during design. The usable field is much better than the Ritchey-Chrétien telescope without corrector, and over very wide spectral bands, typically 380 to 950 nanometres (edges of UV-A and near infrared) if the corrector is made of quartz. (With a corrector, the Ritchey-Chrétien System also has a better and bigger field.) (en)
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| - The Modified Dall-Kirkham telescope utilizes an elliptical primary and spherical secondary mirror as in the conventional Dall-Kirkham configuration, but also includes a lens group (usually two or three lens elements) ahead of the focal point to improve off-axis image quality. The primary mirror conic constant is slightly different from that for a conventional Dall-Kirkham and must be optimized along with the lenses during design. The usable field is much better than the Ritchey-Chrétien telescope without corrector, and over very wide spectral bands, typically 380 to 950 nanometres (edges of UV-A and near infrared) if the corrector is made of quartz. (With a corrector, the Ritchey-Chrétien System also has a better and bigger field.) Such a telescope was designed by Rosin and Wynne after World War II. The performances are equal or better than the Ritchey-Chrétien telescope. The spherical secondary can be fringe tested against a spherical concave surface or tested from behind. This is markedly an advantage over the hyperbolic secondary of the Ritchey-Chrétien design. Another advantage of either the basic Dall-Kirkham or the Modified Dall-Kirkham design is that collimation of the convex spherical secondary mirror with respect to the optical axis of the primary mirror is almost trivial, because there is no single defined axis of a sphere. Any line that runs through the center of the sphere can be an axis. (en)
- ドール・カーカム式望遠鏡(Dall-Kirkham telescope )はカセグレン式望遠鏡の一形式である。 現在は一般に「楕円面主鏡と球面副鏡を用いたカセグレン型の反射望遠鏡」と説明されるが、発明者の考えは少し違う。 (ja)
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