Abstract:
A lens system for a projection type television, having high focusing performance, a wide field angle and a reduced size. The lens system is composed of seven lenses, which are arranged successively from the screen side. The first lens, which is concave, and the second lens, which is convex, are cemented together to correct chromatic aberration. The third lens is a plastic lens for the correction of spherical aberration and astigmatism, at least one side of which is aspherical. The fourth lens, which is convex, and the fifth lens, which is concave, are cemented together to constitute an achromatic lens. In order to reduce the deterioration of focusing performance caused by changes in temperature, these two lenses are glass lenses and occupy the greater part of the power of the entire system. The sixth lens is an aspherical plastic lens for the correction of astigmatism and frame aberration, and the seventh lens is a plastic lens for the correction of image field curvature, using an aspherical surface.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates to a lens system for a projection type television suitable for obtaining projection images of high quality. 
     Where the television screen is to be enlarged and the color cathode-ray tube of the type now available is made larger in size directly, there arise problems such as very high costs. Rather, a projection type television is more practical where an image on a cathode-ray tube is projected on the screen and enlarged through an optical system. However, in order to minimize the depth of a television set and effect a projection of a high definition image, it is necessary to use projection lenses of good characteristics. 
     For example, in U.S. Pat. Nos. 4,300,817 and 4,348,081 there are disclosed lens systems capable of realizing a brightness of 1.0 in terms of F-number using only three lenses. However, those lenses have a small field angle, which is about 50 degrees, so the projection distance becomes long and it is difficult to make the television set small in size. 
     On the other hand, in Japanese Patent Laid-Open No. 200216/1985 (U.S. Ser. No. 715,950 filed in March 1985) there is disclosed a lens system which can realize a wide field angle not smaller than 65 degrees though the number of lenses used is only three, thus greatly contributing to the reduction in size of the television set. 
     However, the above conventional lens systems are for the television screen according to the NTSC system which is now commonly adopted their performance, especially focusing performance, is unsatisfactory for projection reproduction of a television screen of high definition and high quality. 
     In the projection type television, reproduced images on three monochromatic cathode-ray tubes which function to reproduce only red, blue and green images respectively are projected in a superposed manner using an optical system, so it has generally been considered that chromatic aberration will not occur. Actually, however, chromatic aberration occurs because the phosphor of each monochromatic cathode-ray tube does not emit light at a specific wave length but rather emits light in a wavelength region of a certain range. In the lens systems disclosed in U.S. Pat. Nos. 4,300,817 and 4,348,081 and Japanese Patent Laid-Open No. 200216/85 aspherical lenses as used so spherical aberration is very small, resulting in chromatic aberration which is a great cause of deterioration in focusing performance. In the lens system disclosed in the Japanese patent laid-open 200216/85 it is intended to correct chromatic aberration by shortening the focal length, but the results are not satisfactory. 
     In connection with a high-quality image projection lens, a rear projection type display for Model 50 Hivision was made public in a 1986 TV Society National Meeting. This lens system comprises seven lenses using aspherical surfaces to reduce aberrations, including chromatic aberration, thereby realizing high focusing performance. However, due to a field angle of about 50 degrees, the projection distance is long and the depth of the set is large. Moreover, such a small field angle results in both the focal length and the lenses becoming larger, and this presents an obstacle to the reduction of cost. 
     According to the prior art, as noted above, it is impossible to simultaneously attain high focusing performance for high image quality, widening of field angle for reducing the depth of the set, and reduction in the size of lenses reduce cost at the same time. 
     List of prior applications: 
     U.S. Ser. No. 911,070 filed in September 1986 
     U.S. Ser. No. 948,251 filed in December 1986 
     SUMMARY OF THE INVENTION 
     It is the object of the present invention to provide a lens system capable of simultaneously attaining the above-mentioned three items which have heretofore been unattainable, by using aspherical and achromatic lenses, shortening the focal length and widening the field angle. 
     In order to achieve the above object, the lens system according to the present invention is composed of seven lenses which are arranged successively from the screen side. The first lens, which is concave, and the second lens, which is convex, are placed together to correct chromatic aberration. The third lens is a plastic lens for the correction of spherical aberration and astigmatism aberration, having an aspherical surface at least on one side thereof. The fourth lens, which is convex, and the fifth lens, which is concave, are stuck together to constitute an achromatic lens. These two lenses are glass lenses and occupy the greater part of the power of the entire system in order to reduce the deterioration of focusing performance caused by changes in temperature. The sixth lens is an aspherical plastic lens for the correction of astigmatism and frame aberration. The seventh lens is a plastic lens for the correction of curvature of image field, using an aspherical surface. 
    
    
     DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a longitudinal sectional view of a projection lens system embodying the present invention; and 
     FIG. 2 is an MTF characteristic diagram in the first embodiment of the present invention. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The present invention employs plastic lenses using aspherical surfaces for attaining high focusing performance, and also employs a pair of achromatic lenses comprising convex and concave lenses with Abbe&#39;s number of the convex lens being larger than that of the concave lens, which paired lenses are used in two places, for the reduction of chromatic aberration. This is because of achromatizing is effected only in one place, the achromatic lens curvature will become very strong, with the result that it becomes difficult to realize the lens shape. Achromatizing and the reduction of monochromatic aberrations can be realized by attaching the following conditions to the Abbe&#39;s number, v5, at the d line of the fifth lens and also to the refractive index, N 5 , at 545 nm: 
     
         v5&lt;37.0                                                    ○1 
    
     
         N.sub.5 ≧1.62                                       ○2 
    
     If the radius of curvature of the stuck surface of the first and second lenses is R 2 , that of the stuck surface of the fourth and fifth lenses is R 7  and the focal length of the entire system is f, R 2  and R 7  satisfy the following conditions in shape: 
     
         1.5&lt;R.sub.2 /f&lt;2.5                                         ○3 
    
     
         0.5&lt;R.sub.7 /f&lt;1.0                                         ○4 
    
     The fourth and fifth lenses are larger in lens power and smaller in aperture diameter than those of the first and second lenses, so it is possible to set R 7  smaller than R 2 . If R 2  /f is below the lower limit in the expression  ○3 , there will be deterioration in MTF (Modulation Transfer Function) of the marginal portion, while if R 7  /f is below the lower limit in the expression  ○4 , the curvature will become stronger, making it difficult to realize the lens shape and at the same time there will be marked deterioration in monochromatic aberration. Exceeding the upper limits in the expressions ○3  and  ○4  would result in the achromatizing effect being reduced. 
     A plastic lens is advantageous in that it is easy to make it aspherical due to the peculiarity of its manufacturing process, but is disadvantageous in that focus drifts due to changes in refractive index and shape caused by changes in temperature. In the present invention, the fourth and fifth lenses, which are glass lenses, are endowed with most of the power of the entire system to prevent deterioration in focusing performance caused by changes in temperature. 
     In order to decrease the depth of the set it is necessaryy to shorten the projection distance, that is, realize a wide field-angle lens. Widening of the field angle is attained by attaching the following conditions to the spacing, T 34 , between the third and the fourth lens and the spacing, T 67 , between the sixth and the seventh lens: 
     
         0.2&lt;T.sub.34 /f&lt;0.3                                        ○5 
    
     
         0.2&lt;T.sub.67 /f&lt;0.4                                        ○6 
    
     Generally, widening of the lens field angle gives rise to the problem that the marginal portion of the image plane becomes dark and aberration increases. In this connection, a surface shape Z(r) at a distance, r, from an optical axis is defined as follows: ##EQU1## wherein R D  represents a radius of curvature on optical axis and CC, AD, AE, AF and AG represent aspherical co-efficients.Using R D , the following is defined: ##EQU2## When Z(r), S(r) and aperture radius of the screen-side surface of lens are Z 1  (r), S 1  (r) and r 1 , respectively, and Z(r), S(r) and aperture radius of the electron gun-side surface are Z 2  (r), S 2  (r) and r 2 , respectively, the degree of asphericity, A, is defined as follows: 
     
         A={Z.sub.1 (r.sub.1)-S.sub.1 (r.sub.1)}-{Z.sub.2 (r.sub.2)-S.sub.2 (r.sub.2)}                                                ○7 
    
     The degree of asphericity A 3  of the third lens and that A 6  of the sixth lens are determined so as to satisfy the following conditions: 
     
         -0.06&lt;A.sub.3 /f&lt;-0.01                                     ○8 
    
     
         -0.07&lt;A.sub.6 /f&lt;-0.04                                     ○9 
    
     By restricting the asphericity degree A 3  of the third lens to the range of the expression  ○8 , spherical aberration and astigmatism are removed to diminish distortion, while by restricting the asphericity degree A 6  of the sixth lens to a value in the range of the expression  ○9 , frame aberration and astigmatism occurring at the marginal portion of the screen are removed to diminish distortion. 
     When the asphericity degree B 6  is defined as follows using Z(r), S(r) and aperture radius r 0  on the electron gun side of the sixth lens: ##EQU3## the asphericity degree B is determined so as to be: 
     
         -1.6&lt;B.sub.6 &lt;-1.0 
    
     This condition is effective in diminishing distortion and ensuring the spacing between the marginal portion of the sixth lens and that of the seventh lens. 
     The lenses used in the present invention are small in size to reduce their cost. The lens brightness is generally represented in terms of F-number: 
     
         F=f/D 
    
     wherein D represents an effective lens aperture. By setting f small it was realized to make D small, that is, reduce the lens size, without changing the lens brightness. 
     FIG. 1 shows the construction of the first embodiment of the present invention and Tables 1 shows lens data used therein. The lens system illustrated therein is composed of first to seventh lens and a CRT panel glass successively from the screen side. This lens system, which is for projection onto a type 50 screen, has a magnification of 9.5X, an F-number of 1.22, a focal length of 95.1 mm and a field angle of 64.4°. 
     The third lens is aspherical, having a concave meniscus shape near its central axis which is divergent toward the marginal portion. The sixth lens has a convex meniscus shape near its central axis, but its asphericity is strong, acting as a concave lens at the marginal portion. In addition to these third and sixth lenses, the seventh lens is also aspherical, whereby there are attained high focusing performance and wide field angle. Chromatic aberration is reduced by the achromatic, first, second, fourth and fifth lenses and the flare at the image plane edge portion is reduced by a diaphragm disposed between the fifth and the sixth lens. The space between the seventh lens and the CRT panel glass is filled with a refrigerant (comprising glycerin and ethylene glycol incorporated therein, abbreviated as EG+GL in the table) to prevent the increase in temperature of the fluorescent screen of the cathode-ray tube. 
     The fluorescent screen is aspherical, bent convexly toward the electron gun, and it serves to reduce the aberration of image field curvature and introduce the light at the image plane edge portion into lens as much as possible. As a result, 42% edge brightness could be ensured at a relative field angle of 90%. 
     FIG. 2 shows MTF at 600 TV lines and also at 1000 TV lines. These values were determined in consideration of the emission spectrum distribution of the phosphor, and wavelength weights are as set out in Table 2. It is seen that good MTF is obtained even at the image plane edge portion. 
     
                       TABLE 2______________________________________  Wave Length  (nm)     Weight______________________________________  490      0.2  545      0.6  590      0.2______________________________________ 
    
     Distortion is a maximum of 5.4% (focal distortion on the screen), which value can be reduced by correcting the image on the cathode-ray tube using an electric circuit. 
     Tables 3 to 7 show lens data in second to sixth embodiments. Basic constructions of lenses are the same as in the first embodiment. MTF characteristics at 600 and 1000 TV lines are also about the same as in the first embodiment. 
     In Table 8 there are shown Abbe&#39;s number v5 at d line of the fifth lens, refractive index N 5  at 545 nm of the fifth lens, a value obtained by dividing the radius of curvature R 2  of the stuck surface of the first and second lenses by the focal length f of the entire system, a value obtained by dividing the radius of curvature R 7  of the stuck surface of the fourth and fifth lenses by f, a value obtained by dividing the spacing T 34  between the third and fourth lenses by f, a value obtained by dividing the value A 3  which is a value of having applied the asphericity degree A of the equation  ○7  to the third lens, by f, and the electron gun-side asphericity B 6  of the sixth lens represented by the equation  ○10 , with respect to each embodiment. All the embodiments satisfy the following relationships: 
     
         v5&lt;37.0 
    
     
         N.sub.5 ≧1.6 
    
     
         1.5&lt;R.sub.2 /f&lt;2.5 
    
     
         0.5&lt;R.sub.7 /f&lt;1.0 
    
     
         0.2&lt;T.sub.34 /f&lt;0.3 
    
     
         0.2&lt;T.sub.67 /f&lt;0.4 
    
     
         -0.06&lt;A.sub.3 /f&lt;-0.01 
    
     
         -0.07&lt;A.sub.6 /f&lt;-0.04 
    
     
         -1.6&lt;B.sub.6 &lt;-1.0 
    
     According to the above embodiments, high focusing performance and wide field angle were attained by using aspherical lenses and achromatic lenses. As a result, good MTF was obtained nearly throughout the entire region of relative field angle and about 72% MTF obtained at the center of the 1000 TV-line image plane. Further, the field angle could be widened from about 50 degrees up to 64.4 degrees, thus permitting a great shortening of the projection distance, with the result that it became possible to reduce the size of the set. Besides, a sufficient edge brightness could be ensured, which was about 42% at a relative field angle of 90%. Further, it became possible to realize the reduction in size of the lens aperture and the reduction of cost. 
     Table 9 shows lens data in a seventh embodiment. This lens, having a magnification of 9.5X, is for projection onto a 55-inch screen. It has an F-number of 1.2, a focal length of 92.5 mm and a field angle of 70 degrees. 
     In the above construction, high focusing performance and wide field angle are attained by using aspherical surfaces of the third, sixth and seventh lenses, and chromatic aberration is reduced by the first, second, fourth and fifth lenses. Further, the diaphragm disposed between the fifth and the sixth lens functions to reduce flare occurring at the image plane edge portion. The space between the seventh lens and the Braun tube glass is filled with coolant which functions to suppress the increase in temperature of the Braun tube glass. 
     The fluorescent screen of the Braun tube glass is convexly curved toward the electron gun. This is effective in introducing the light at the image plane edge portion into lens as much as possible to increase the edge brightness and also is effective in reducing the aberration of image field curvature. As a result, 37% edge brightness was ensured at a relative field angle of 90%. 
     Table 10 shows lens data in an eight embodiment. This lens is also 9.5X in magnification and is for projection onto a 55-inch screen, having an F-number of 1.2, a focal length of 92.5 mm and a field angle of 70 degrees. 37% edge brightness was ensured at a relative field angle of 90%. 
     According to this embodiment, high focusing performance and wide field angle are realized by using the aspherical lens technique and achromatic lenses, and the lens size is reduced by shortening the focal length. As a result, it is possible to widen the field angle from about 50 degrees commonly adopted heretofore up to about 70 degrees and shorten the projection distance to a great extent. Besides, notwithstanding the increase in field angle, a sufficient edge brightness can be ensured, which is about 37% at a relative field angle of 90%. Further, the lens aperture is 130 mm, thus permitting the reduction of both size and cost. 
     
                                           TABLE 1__________________________________________________________________________Paraxial System         Curvature                 Aperture         Radius  Radius                      Gap between                             Refractive                                   Quality         RD (mm) (mm) Surfaces                             Index of MaterialScreen        0.0     700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 445.103 51.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   51.0                      13.0   1.6229                                   SK 16 (60.34)      S3 1081.915                 51.0                      2.0    1.03rd Lens   S4 76.114  42.0                      8.6151 1.4934                                   PMMA      S5 70.242  42.0                      25.530 1.04th, 5th   S6 99.834  40.0                      28.0   1.6229                                   SK 16 (60.34)Lens       S7 -65.0   40.0                      2.4    1.7921                                   FD 11 (25.70)      S8 -101.368                 40.0                      8.0    1.0Aperature  S9 0.0     35.5                      26.450 1.06th Lens   S10         -235.523                 40.0                      8.55   1.4936                                   PPMA      S11         -103.931                 40.5                      26.0   1.07th Lens   S12         -43.561 44.0                      3.67   1.4936                                   PMMA      S13         -65.0   46.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -6.83879                 6.1196                      -1.2286                             3.5442                                   -3.7147                 × 10.sup.-7                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.813655                 1.1438                      -7.2597                             3.0261                                   -6.2497                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         24.8279 1.1732                      9.1152 2.9704                                   -3.3453                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16      S11         -10.6732                 7.6570                      1.3801 3.5329                                   -3.0965                 × 10.sup.-7                       × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -2.31351                 -7.9612                      3.8242 -5.5325                                   2.2152                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 95.085 
    
     
                                           TABLE 3__________________________________________________________________________Paraxial System         Curvature                 Aperture         Radius  Radius                      Gap between                             Refractive                                   Quality         RD (mm) (mm) Surfaces                             Index of MaterialScreen        0.0     700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 995.773 51.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   51.0                      13.0   1.6229                                   SK 16 (60.34)      S3 -953.211                 51.0                      2.0    1.03rd Lens   S4 72.188  42.0                      8.61517                             1.4934                                   PMMA      S5 65.172  42.0                      26.237 1.04th, 5th   S6 100.160 40.0                      28.0   1.6229                                   SK 16 (60.34)Lens       S7 -65.0   40.0                      2.4    1.7921                                   FD 11 (25.70)      S8 -102.162                 40.0                      8.0    1.0Aperture   S9 0.0     35.5                      24.732 1.06th Lens   S10         -217.799                 40.0                      8.55   1.4934                                   PMMA      S11         -104.931                 39.0                      26.0   1.07th Lens   S12         -44.191 44.0                      3.67   1.4934                                   PMMA      S13         -70.0   46.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -4.69768                 6.5614                      -1.3028                             4.6592                                   -5.6170                 × 10.sup.-8                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.435757                 -1.3933                      -1.0640                             5.2906                                   -9.1357                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         17.6203 1.1842                      1.1907 1.61449                                   -3.2794                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16      S11         -11.6155                 8.5078                      1.5334 3.9254                                   -3.0965                 × 10.sup.-7                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -2.00210                 -5.2545                      5.9297 -8.5108                                   3.5374                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 94.630 
    
     
                                           TABLE 4__________________________________________________________________________Paraxial System         Curvature                 Aperture         Radius  Radius                      Gap between                             Refractive                                   Quality         RD (mm) (mm) Surfaces                             Index of MaterialScreen        0.0     700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 994.840 51.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 170.0   51.0                      13.0   1.6229                                   SK 16 (60.34)      S3 -952.569                 51.0                      2.0    1.03rd Lens   S4 72.187  42.0                      8.6151 1.4934                                   PMMA      S5 65.174  42.0                      26.239 1.04th, 5th   S6 100.160 40.0                      28.0   1.6229                                   SK 16 (60.34)Lens       S7 -65.0   40.0                      2.4    1.7921                                   FD 11 (25.70)      S8 -102.162                 40.0                      8.0    1.0Aperture   S9 0.0     35.5                      24.731 1.06th Lens   S10         -217.793                 40.0                      8.55   1.4934                                   PMMA      S11         -104.932                 39.0                      26.0   1.07th Lens   S12         -44.189 44.0                      3.67   1.4934                                   PMMA      S13         -70.0   46.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 4.9754  6.5598                      -1.3028                             4.692 -5.6169                 × 10.sup.-8                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.435821                 -1.3933                      -1.0640                             5.2906                                   -9.1350                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         17.6170 1.1842                      1.1907 1.6146                                   -3.2795                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16      S11         -11.6160                 8.5078                      1.5334 3.9254                                   -3.0965                 × 10.sup.-7                       × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         2.00175 -5.2509                      5.9289 -8.5120                                   3.5380                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 94.630 
    
     
                                           TABLE 5__________________________________________________________________________Paraxial System         Curvature                 Aperture         Radius  Radius                      Gap between                             Refractive                                   Quality         RD (mm) (mm) Surfaces                             Index of MaterialScreen        0.0     700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 1109.607                 51.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   51.0                      13.0   1.6229                                   SK 16 (60.34)      S3 -1087.537                 51.0                      2.0    1.03rd Lens   S4 71.966  42.0                      8.6151 1.4934                                   PMMA      S5 64.361  42.0                      24.721 1.04th, 5th   S6 101.790 40.0                      28.0   1.6229                                   SK 16 (60.34)Lens       S7 -65.0   40.0                      2.4    1.7472                                   FD 13 (27.76)      S8 -103.096                 40.0                      8.0    1.0Aperture   S9 0.0     35.5                      25.761 1.06th Lens   S10         -227.600                 40.0                      8.55   1.4934                                   PMMA      S11         -103.701                 39.0                      26.0   1.07th Lens   S12         -44.785 44.0                      3.67   1.4934                                   PMMA      S13         -70.0   46.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -4.70777                 7.2587                      -1.3024                             4.6224                                   -5.6527                 × 10.sup.-8                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.449262                 -1.3962                      -1.0406                             5.2078                                   -9.5747                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         23.2748 1.5035                      1.2597 1.7379                                   -3.5285                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16      S11         -13.3215                 9.4531                      1.7038 4.3616                                   -3.8679                 × 10.sup.- 7                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -2.05997                 -4.6055                      5.3014 -8.7862                                   3.6244                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 94.412 
    
     
                                           TABLE 6__________________________________________________________________________Paraxial System                 Aperture         Curvature                 Radius                      Gap between                             Refractive                                   Quality         Radius  (mm) Surfaces                             Index of MaterialScreen        RD (mm) 700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 1144.057                 51.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   51.0                      13.0   1.6229                                   SK 16 (60.34)      S3 -870.202                 51.0                      2.0    1.03rd Lens   S4 71.254  42.0                      8.6151 1.4934                                   PMMA      S5 65.501  42.0                      26.387 1.04th, 5th   S6 97.203  40.0                      28.0   1.6229                                   SK 16 (60.34)Lens       S7 -65.0   40.0                      2.4    1.7472                                   FD 13 (27.76)      S8 -108.879                 40.0                      8.0    1.0Aperture   S9 0.0     35.5                      24.006 1.06th Lens   S10         -185.615                 40.0                      7.35   1.4934                                   PMMA      S11         -95.741 39.07                      26.0   1.07th Lens   S12         -44.698 44.0                      3.67   1.4934                                   PMMA      S13         -70.0   46.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -4.63485                 9.0648                      -1.3186                             4.6609                                   -5.4174                 × 10.sup.-8                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.564500                 -1.4683                      -1.1313                             5.6525                                   -1.0904                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-166th Lens   S10         14.9310 1.1129                      1.6663 2.1983                                   -4.4776                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16      S11         -7.97487                 8.9574                      1.8331 5.5398                                   -4.9159                 × 10.sup.- 7                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -2.66270                 -1.2661                      7.0506 -7.5303                                   2.8693                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 93.869 
    
     
                                           TABLE 7__________________________________________________________________________Paraxial System         Curvature                 Aperture         Radius  Radius                      Gap between                             Refractive                                   Quality         RD (mm) (mm) Surfaces                             Index of MaterialScreen        0.0     700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      1008.0 1.01st, 2nd   S1 1371.482                 49.5                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   49.5                      13.0   1.6229                                   SK 16 (60.34)      S3 -1218.133                 49.5                      2.0    1.03rd Lens   S4 72.532  49.5                      8.6151 1.4934                                   PMMA      S5 65.306  49.5                      24.600 1.04th, 5th   S6 104.387 39.0                      26.0   1.6229                                   SK 16 (60.34)Lens       S7 -55.0   39.0                      2.4    1.6242                                   F2 (36.30)      S8 -124.609                 39.0                      8.0    1.0Aperture   S9 0.0     32.0                      26.819 1.06th Lens   S10         -213.740                 42.0                      7.35   1.4934                                   PMMA      S11         -101.141                 42.0                      30.0   1.07th Lens   S12         -48.145 45.0                      3.67   1.4934                                   PMMA      S13         -70.0   47.0Coolant                    10.9   1.4446                                   EG + GLGlass         0.0     70.0 13.4   1.5399         -341.280                 70.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -5.17223                 9.6934                      -1.3130                             4.6534                                   -5.4223                 × 10.sup.-8                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 0.601181                 -1.4957                      -1.1439                             5.9011                                   -1.2300                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-166th Lens   S10         -4.25981                 1.3771                      1.7486 1.3887                                   -4.3040                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16      S11         -11.4795                 1.1659                      2.0934 6.7476                                   -5.7628                 × 10.sup.- 6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -3.89908                 -1.6263                      9.5345 -6.6968                                   2.2835                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 96.273 
    
     
                                           TABLE 8__________________________________________________________________________Table 1   Table 3           Table 4                Table 5                      Table 6                           Table 7__________________________________________________________________________V.sub.525.70     25.70 25.70                27.76 27.76                           36.30N.sub.51.792     1.792 1.792                1.747 1.747                           1.624R.sub.2 /f2.103     2.113 1.796                2.118 2.130                           2.077R.sub.7 /f0.683     0.686 0.686                0.688 0.692                           0.571T.sub.34 /f0.268     0.277 0.277                0.261 0.281                           0.255T.sub.67 /f0.273     0.274 0.274                0.275 0.277                           0.311A.sub.3 /f-0.0224     -0.0179           -0.0179                -0.0194                      -0.0173                           -0.0515A.sub.6 /f-0.0528     -0.0438           -0.0438                -0.0440                      -0.0456                           -0.0663B.sub.6-1.108     -1.173           -1.173                -1.242                      -1.126                           -1.579__________________________________________________________________________ 
    
     
                                           TABLE 9__________________________________________________________________________Paraxial System                 Aperture         Curvature                 Radius                      Gap between                             Refractive                                   Quality         Radius  (mm) Surfaces                             Index of MaterialScreen        RD (mm) 700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      996.2  1.01st, 2nd   S1 753.724 65.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   65.0                      15.0   1.6229                                   BaCD.sub.16 (60.34)      S3 44196.7 65.0                      2.0    1.03rd Lens   S4 98.5674 57.2                      8.6151 1.4936                                   PMMA      S5 106.493 49.6                      26.981 1.04th, 5th   S6 95.0076 39.3                      26.0   1.6229                                   BaCD.sub.16 (60.34)Lens       S7 -60.0   41.1                      2.4    1.6242                                   F2 (36.30)      S8 -144.070                 41.1                      5.0    1.0Aperture   S9 0.0     33.0                      34.245 1.06th Lens   S10         1386.84 42.2                      7.348  1.4936                                   PMMA      S11         -357.528                 42.2                      23.557 1.07th lens   S12         -43.0   46.0                      3.667  1.4936                                   PMMA      S13         -55.0   49.0Coolant                    2.37   1.4578                                   PEG200Glass         0.0     80.0 15.5   1.5401         -1000.0 80.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -7.57444                 -4.9671                      --1.1978                             5.5781                                   -7.6181                 × 10.sup.-7                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-17      S5 1.19740 -1.3373                      -8.7742                             5.8827                                   -9.1165                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         -39658.1                 -1.1723                      -4.2830                             -1.6972                                   7.2669                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-18      S11         53.7054 -5.5780                      3.1248 -3.6271                                   1.5937                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -1.06867                 -1.0860                      1.0983 -5.9134                                   1.3166                 × 10.sup.-6                      × 10.sup.-9                             × 10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 92.5 
    
     
                                           TABLE 10__________________________________________________________________________Paraxial System                 Aperture         Radius  Curvature                      Gap between                             Refractive                                   Quality         Radius  (mm) Surfaces                             Index of MaterialScreen        RD (mm) 700.0                      (mm)   (545 nm)                                   (Abbe&#39;s No.)__________________________________________________________________________                      996.2  1.01st, 2nd   S1 793.771 65.0                      3.0    1.6242                                   F2 (36.30)Lens       S2 200.0   65.0                      15.0   1.6229                                   BaCD.sub.16 (60.34)      S3 -5179.69                 65.0                      2.0    1.03rd Lens   S4 99.6150 57.2                      8.6151 1.4936                                   PMMA      S5 106.504 49.6                      27.373 1.04th, 5th   S6 95.0076 41.1                      26.0   1.6229                                   BaCD.sub.16 (60.34)Lens       S7 -60.0   41.1                      2.4    1.6242                                   F2 (36.30)      S8 -141.555                 41.1                      37.459 1.06th Lens   S9 3476.29 42.2                      7.348  1.4936                                   PMMA      S10         -383.703                 42.2                      24.922 1.07th Lens   S11         -43.0   46.0                      3.667  1.4936                                   PMMA      S12         -55.0   49.0Coolant                    2.37   1.4578                                   PEG200Glass         0.0     80.0 15.5   1.5401         -1000.0 80.0__________________________________________________________________________Fluorecent SurfaceAspherical Coefficient         CC      AD   AE     AF    AG__________________________________________________________________________3rd Lens   S4 -9.26360                 -4.5666                      -1.1902                             5.5829                                   -7.6719                 × 10.sup.-6                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-176th Lens   S10         -39658.1                 -1.1866                      9.3983 -2.3961                                   -4.2016                 × 10.sup.-6                      × 10.sup.-11                             × 10.sup.-13                                   × 10.sup.-17      S11         47.7805 -2.3347                      4.9563 -3.3129                                   1.0171                 × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-13                                   × 10.sup.-167th Lens   S12         -1.43385                 -1.2399                      7.2748 -4.6141                                   1.4058                 × 10.sup.-6                      × 10.sup.-10                             ×  10.sup.-13                                   × 10.sup.-16Fluorecent    4.58135 2.3355                      -1.1824                             1.4486                                   -5.5873Surface               × 10.sup.-7                      × 10.sup.-10                             × 10.sup.-14                                   × 10.sup.-19__________________________________________________________________________ f = 92.5