DEP0054067DA - Optical system with ultra-chromatic correction - Google Patents

Description

The excellent suitability of the triplet invented by Dennis H. Taylor for eliminating all image errors excluding the curvature of the image field present for larger image angles is generally known. The excellent effect of the C.P. Smyth first applied the negative lens in the vicinity of the image plane to improve the remaining curvature of the image in corrected optical systems. Both devices have been used in the example of the invention to produce the correction of the usual image errors. Lenses with so-called Smyth lenses are generally known, even if the simultaneous use of the last lens surface as a film support (film lens) in photographic systems was carried out and published for the first time at MINOX GmbH Wetzlar.

While the chromatic correction is generally carried out with a lens system made exclusively of glass for the wavelengths: (Lambda) = 656.3 m (My) to (Lambda) = 434 m (My), the chromatic correction of the subject matter of the invention extends much further and also includes the ultraviolet area with the wavelength (lambda) = 360 m (My) for which optical glass is still permeable (ultra-chromatic correction).

The detection of the blue, violet and ultraviolet (UV) components up to (Lambda) = 360 m (My) is of great advantage, for example, with the high sensitivity of the photographic layer, especially for these rays during photographic recording, and represents a significant advance.

While in photography with normally corrected photographic lenses, especially at higher altitudes With strong UV radiation to eliminate the chromatic focus difference and the resulting image blurring, a UV absorbing filter must be used, the use of a UV filter is ruled out in the present invention, and the full light intensity of the system has an effect or experiences against the The high UV sensitivity of the photographic layer is a significant increase compared to other systems with the same relative aperture in which a UV filter appears necessary.

New paths have been broken to achieve this goal.

The idea of the invention is based on cementing the negative lens (Smyth lens) arranged in the immediate vicinity of the imaging plane in order to include in the correction the rays of shorter wavelengths of less than (lambda) = 434 m (My) that can no longer be corrected in conventional systems to be able to.

In fact, the fulfillment of the claim of the invention can largely be achieved in that a field-leveling negative lens (B), see figure, as it was made known by Smyth, is provided with cement, whereby the difference in Abbe's numbers, which is a measure for the The size of the dispersion of optical glasses is at least 3 and that, in addition, the distance of the member (B) from the image plane is zero or less than its distance from the main system (A).

The attached figure shows an exemplary embodiment with the following optical data for f = 100.0.

Claims (2)

1. "Optical system, consisting of a main system and a second system of negative focal length assigned to it, arranged in the vicinity of the image plane, characterized in that the second system consists of at least two lenses that are smaller for the rays coming from the main system than 434 m (My) are corrected ultrachromatically. 2. Optical system according to claim 1, characterized in that when the lenses are cemented, the difference in their Nü values is at least 3 ".