Patent Publication Number: US-4729643-A

Title: Telephoto zoom lens system for camera

Description:
FIELD OF THE INVENTION AND RELATED ART STATEMENT 
     This invention relates to a telephoto zoom lens system for a camera composed of three groups of lenses. 
     FIGS. 1(a) and 1(b) show two examples of prior art zoom lens system. In each case, the zoom lens system comprises three lens groups, i.e., a first lens group L 1  having a positive refractive power, a second lens group L 2  having a negative refractive power and a third lens group L 3  having a positive refractive power, arranged from the objective side to the image side. 
     In the zooming operation of the first example as shown in FIG. 1(a), with the movement of the first lens group L 1 , the third lens group L 3  undergoes an arithmetic movement and the second lens group L 2  undergoes a non-arithmetic movement so as to hold the image side focal point of the whole lens system in a fixed position. In the second example, with the movement of the first lens group L 1 , the second lens group L 2  undergoes an arithmetic movement and the third lens group L 3  undergoes a non-arithmetic movement to hold the image side focal point of the whole lens system in a fixed position. Assuming that both of these zoom lenses have the same lens structure and are similar to each other in refractive power arrangement and aberration compensation at the wide angle end and telephoto end, the magnification of the third lens group L 3  is usually ×1 (equimultiple) or greater in a telephoto zoom lens system. In addition, since the magnification of the second lens group L 2  located midway between the wide-angle end and telephoto end is usually less than ×1, the positions of the second and third lens groups L 2  and L 3  midway therebetween are closer to the image side in the case of the second example than in the case of the first example. From the standpoint of the ratio of the angle of incidence of the light beam on the first lens group L 1  to the respective angles of incident of the light beams on the second and third lens groups L 2  and L 3  at the midway position, the light beam incident on the first lens group L 1  is larger in angle of incidence in the second example than in the first example. This means that the first and second examples are different from each other in the aberration at the midway position and, usually, the second example has a greater under-aberration tendency at the midway position than that in the first example, because the specific aberration of the first lens group L 1  has an under-aberration tendency both on the axis and outside the axis. 
     Meanwhile, the image-focusing relation of the three lens groups in the zoom lens system to one another is as schematically shown in FIG. 2. It will be understood from this image-focusing relation that in order to reduce the total axial length of the lens system while maintaining adequate distances among adjacent lens groups, it is desirable to reduce the refractive power of the second lens group L 2  while increasing the refractive power of the third lens group L 3 . However, for the prevention of the deterioration of the peripheral light quantity in the field of view, the refractive power of the third lens group L 3  must be increased, because the refractive power of the second lens group L 2  cannot be made too low. In this case, if the focal distance of the whole lens system is fixed without variation of the magnification of the third lens group L 3 , the distance between the second and third lens groups L 2  and L 3  is reduced. In other words, the respective angles of incidence of light beams to the first and second lens groups L 1  and L 2  are increased with reducing angle of incidence of the light beam on the third lens group L 3 . Therefore, due to the influence of the second lens group L 2  having a high refractive power, the over-aberration tendency remains at the midway position both on the axis and outside the axis even where the compensation for the aberration is sufficiently made at the wide angle end and telephoto end. 
     From the above, the second example would be preferred to the first example for providing a compact zoom lens system composed of the three lens groups, whereas the second example has an upper limitation on the refractive power of the third lens group L 3 , so that the focal distance of the third lens group is only of the order of the resultant focal distance of the overall lens system at the wide angle end. From the fact mentioned above, the lens construction composed of the three lens groups has been hitherto applied only to a wide angle zoom lens having a short focal distance because the lens groups can be moved relatively easily in the zooming operation. Though it may be applied to a zoom lens system of a high zoom ratio, such a lens system will require some other technique for attaining compactness, due to the amplifying function of the second and third lens groups. 
     OBJECT AND SUMMARY OF THE INVENTION 
     An object of the invention is to provide a telephoto zoom lens system for a camera, which has high magnification power but is nevertheless small in total length, overall size and weight. 
     To attain the above object of the invention, the telephoto zoom lens system according to the invention comprises from the objective side to the image side a first lens group having a positive refractive power, a second lens group having a negative refractive power and a third lens group having a positive refractive power, wherein the second lens group is moved in the direction opposite to the direction of movement of the first lens group on the wide angle end while it is moved in the same direction as the first lens group on the the telephoto end, whereby the angle of incidence of the light beam on the second lens group at the midway between the wide angle end and telephoto end is reduced. 
     With this arrangement, even if the focal distance of the third lens group is smaller than the resultant focal distance of the overall lens system at the wide angle end, the over-aberration tendency at the midway position is compensated for by the residual aberration subject to under-aberration of the first lens group. The telephoto zoom lens system according to the invention thus has a very small overall length and has a high zoom ratio compared to the prior art telephoto zoom lens. 
     The above and other objects and features of the invention will become more apparent from the description of the preferred embodiments thereof when the same is read with reference to the accompanying drawings. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1(a) is a view showing the concept underlying a prior art zoom lens; 
     FIG. 1(b) is a view showing the concept underlying a different prior art zoom lens; 
     FIG. 2 is a view showing an image-focusing relation of a zoom lens consisting of three lens groups; 
     FIG. 3 is a schematic view showing a first embodiment of the telephoto zoom lens according to the invention; 
     FIG. 4 is a schematic view showing a second embodiment of the telephoto zoom lens according to the invention; 
     FIG. 5 is a schematic view showing a third embodiment of the telephoto zoom lens according to the invention; 
     FIG. 6 is a schematic view showing a fourth embodiment of the telephoto zoom lens according to the invention; 
     FIG. 7 is a schematic view showing a fifth embodiment of the telephoto zoom lens according to the invention; 
     FIG. 8 is a schematic view showing a sixth embodiment of the telephoto zoom lens according to the invention; 
     FIG. 9(a) is the spherical aberration diagram of the first embodiment of the zoom lens; 
     FIG. 9(b) is the astigmatic aberration diagram of the first embodiment of the zoom lens; 
     FIG. 9(c) is the distortion diagram of the first embodiment of the zoom lens; 
     FIG. 10(a) is the spherical aberration diagram of the second embodiment of the zoom lens; 
     FIG. 10(b) is the astigmatic aberration diagram of the second embodiment of the zoom lens; 
     FIG. 10(c) is the distortion diagram of the second embodiment of the zoom lens; 
     FIG. 11(a) is the spherical aberration diagram of the third embodiment of the zoom lens; 
     FIG. 11(b) is the astigmatic aberration diagram of the third embodiment of the zoom lens; 
     FIG. 11(c) is the distortion diagram of the third embodiment of the zoom lens; 
     FIG. 12(a) is the spherical aberration diagram of the fourth embodiment of the zoom lens; 
     FIG. 12(b) is the astigmatic aberration diagram of the fourth embodiment of the zoom lens; 
     FIG. 12(c) is the distortion diagram of the fourth embodiment of the zoom lens; 
     FIG. 13(a) is the spherical aberration diagram of the fifth embodiment of the zoom lens; 
     FIG. 13(b) is the astigmatic aberration diagram of the fifth embodiment of the zoom lens; 
     FIG. 13(c) is the distortion diagram of the fifth embodiment of the zoom lens; 
     FIG. 14(a) is the spherical aberration diagram of the sixth embodiment of the zoom lens; 
     FIG. 14(b) is the astigmatic aberration diagram of the sixth embodiment of the zoom lens; and 
     FIG. 14(c) is the distortion diagram of the sixth embodiment of the zoom lens. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     A first embodiment of the zoom lens system according to the invention will now be described with reference to FIG. 3. The illustrated telephoto zoom lens system comprises from the objective side to the image side a first lens group L 1  having a positive refractive power, a second lens group L 2  having a negative refractive power and a third lens group L 3  having a positive refractive power. The third lens group L 3  is composed of at least an objective side positive lens subunit L 3P  including one or more negative lenses and an image side negative lens subunit L 3N  including one or more positive lenses. With this telephoto zoom lens system, when the zooming from the wide angle end toward the telephoto end is effected as shown in FIG. 4, the first lens group L 1  undergoes an arithmetic movement along the optical axis from the image side toward the objective side. As termed in this specification, &#34;arithmetic movement&#34; means movement of the lens group which is in direct proportion to the action causing the movement which may, for example, be the turning or linear moving of the lens barrel. With the movement of the first lens group L 1 , the second lens group L 2  moves from the objective side toward the image side in the first half of the movement of the first lens group as illustrated in FIG. 4, and then, it moves from the image side toward the objective side in the latter half after the first lens group L 1  reaches the substantial midway portion in the whole moving range thereof as illustrated in FIG. 4. Simultaneously, the third lens group L 3  undergoes a non-arithmetic movement so as to maintain the image side focal point of the whole lens system in a fixed position in conjunction with the first and second lens groups L 1  and L 2 . 
     The telephoto zoom lens system according to this invention satisfies the following conditions: 
     
         0.3·f.sub.w ≦f.sub.3 ≦0.5·f.sub.w (1) 
    
     
         0.25·f.sub.1 ≦|f.sub.2 |≦0.4·f.sub.1                    (2) 
    
     
         f.sub.w ≦f.sub.1 ≦2·f.sub.w         (3) 
    
     
         1≦|M.sub.3 |≦2             (4) 
    
     
         0.7≦|M.sub.2 |≦1.25        (5) 
    
     
         n.sub.N &gt;n.sub.p                                           (6) 
    
     
         ν.sub.PP &gt;ν.sub.PN                                   (7) 
    
     
         ν.sub.NN ≧ν.sub.NP                            (8) 
    
     where f 1 , f 2  and f 3  represent the respective focal distances of the first to third lens groups L 1  to L 3  ; f w  the resultant focal distance of the overall lens system at the wide angle end; M 3  the magnification of the third lens group L 3  at the wide angle end; M 2  the magnification of the second lens group L 2  at the telephoto end; n p  the average value of the refractive index of the positive lens in the third lens group L 3  ; n N  the average value of the refractive index of the negative lens in the third lens group; ν PP  the average value of the Abbe&#39;s number of the positive lens in the positive lens group L 3P  ; ν PN  the average value of the Abbe&#39;s number of the negative lens in the positive lens group L 3P  ; ν NP  the average value of the Abbe&#39;s number of the positive lens in the negative lens group L 3N  ; and ν.sub. NN the average value of the Abbe&#39;s number of the negative lens in the negative lens group L 3N . 
     The conditions (1) to (8) described above will now be discussed in detail. 
     The condition (1) of f 3  ≦0.5·f w  is particularly necessary for realizing a compact lens system having a small overall length. When f 3  &lt;0.3·f w , the second lens group L 2  becomes excessively spaced apart from the first lens group L 1  for the compensation for the aberration subject to over-aberration at the midway position between the wide angle end and telephoto end. As a result, the entrance pupil at the midway position must be spaced apart from the first lens group L 1 , which degrades the peripheral light quantity at the midway position. For this reason, it is necessary that 0.3·f w  ≦f 3 . 
     The condition (2) of 0.25·f 1  ≦|f 2  | is necessary for minimizing the diverging power of the second lens group L 2  while providing a compact lens structure. Also, the lens aperture of the lens system may be made rather large to prevent the deterioration of the peripheral light quantity which is caused by the excess of |f 2  | over 0.4·f 1 . For this reason, |f 2  | has to be 0.4·f 1  or less. 
     The condition (3) defining f w  ≦f 1  ≦2·f w  is provided for the reason that when f 1  exceeds 2·f w , at a very small distance of the object, the extent of feed of the first lens group L 1  is increased, thus resulting in deterioration of the peripheral light quantity. When f 1  is less than f w , the residual aberration of the first lens group L 1  is increased, making it difficult to balance the aberration on the axis with that outside the axis at the wide angle end. For this reason, there is provided the condition f 1  &gt;f w . 
     The condition (4) of 1≦|M 3  |≦2 is necessary for the reason that when |M 3  | is less than 1, the distance between the first and second lens groups L 1  and L 2  at the wide angle end is increased, whereby the peripheral light quantity is degraded. In addition, a value of |M 3  | above 2 is undesired because the focusing property of the third lens group L 3  located at the position thereof for a magnification of ×1 (equimultiple) is appropriate for realizing a compact lens system. 
     The condition (5) of |M 2  |≦1.25 is necessary for the reason that the third lens group L 3  should not be too high in magnification with respect to the first lens group L 1  so as not to interfere any other elements in the zooming operation although the magnification of the second lens group L 2  of the telephoto zoom lens is desirably as large as possible. On the other hand, the lens system having |M 2  | less than 0.7 is not a zoom lens of a high zoom ratio under the condition (2). 
     Even in the telephoto zoom lens which satisfies the above conditions, the telephoto ratio of the third lens group should be set to so small as to maintain an adequate air gap between the second and third lens groups L 2  and L 3  at the telephoto end. Further, with increase of the refractive power of the third lens group L 3 , the angle of incidence of the light beam on the third lens group L 3  becomes small compared with those on the first and second lens groups L 1  and L 2 . Therefore, to maintain an adequate Petzval&#39;s sum, the average value n p  of the positive lens refractive power of the third lens group L 3  should be smaller than the average n N  of the negative lens refractive power. The condition (6) is necessary for this reason. 
     Further, the positive lens group L 3P  of the third lens group L 3  is adapted particularly to compensate for the chromatic aberration on the axis, while compensation for the chromatic aberration of the magnification is particularly carried out in the negative lens group L 3N . The average value ν PP  of the Abbe&#39;s number of the positive lens is greater than the average value ν PN  of the Abbe&#39;s number of the negative lens, while the average value ν NN  of the Abbe&#39;s number of the negative lens is greater than the average value ν NP  of the Abbe&#39;s number of the position lens. 
     Examples of the invention are given below. In these examples, f represents the resultant focal distance of the overall lens system; f 1 , f 2  and f 3  the respective focal distances of the first to third lens groups L 1  to L 3  ; R the radius of curvature of the lens; d the axial distance or thickness of the lens; n the refractive index of glass used for the lens; ν the Abbe&#39;s number of glass used for the lens; R, d, n and ν symbols provided in the order from the objective side to the image side; M 3  the magnification of the third lens group L 3  at the wide angle end; and M 2  the magnification of the second lens L 2  group at the wide angle end. 
     
         ______________________________________                                    
Example 1: Corresp. to FIG. 3 (Lens Structure) and                        
FIG. 9 (Aberration Diagram)                                               
______________________________________                                    
(f = 71.97˜ 202.54  FNo. = 4.12˜ 5.78)                        
        R         d           n     ν                                  
______________________________________                                    
 1      48.907    1.40        1.80518                                     
                                    25.4                                  
 2      34.577    7.21        1.51680                                     
                                    64.2                                  
 3      -261.273  dIII                                                    
 4      -73.159   1.00        1.69680                                     
                                    55.5                                  
 5      20.850    3.61        1.80518                                     
                                    25.4                                  
 6      51.473    2.45                                                    
 7      -57.152   1.00        1.60311                                     
                                    60.7                                  
 8      300.927   dVIII                                                   
 9      -2021.958 2.73        1.48749                                     
                                    70.1                                  
10      -52.159   0.11                                                    
11      32.396    6.37        1.51680                                     
                                    64.2                                  
12      -42.248   1.00        1.80518                                     
                                    25.4                                  
13      295.543   0.25                                                    
14      37.316    3.56        1.51680                                     
                                    64.2                                  
15      9135.126  17.90                                                   
16      59.483    1.00        1.74400                                     
                                    44.7                                  
17      19.513    4.25        1.59270                                     
                                    35.3                                  
18      -60.312   5.80                                                    
19      -20.160   1.00        1.69680                                     
                                    55.5                                  
20      -274.291                                                          
______________________________________                                    
(f.sub.1 = 98.959 f.sub.2 = -29.800 f.sub.3 = 31.500)                     
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       44.944        130.03                                              
T       65.867        158.20                                              
______________________________________                                    
        f             dIII    dVIII                                       
______________________________________                                    
W        71.97          2.247 22.200                                      
M       116.90        21.734  12.960                                      
T       202.54        30.421   1.277                                      
______________________________________                                    
|M.sub.3 | = 1.433                                      
|M.sub.2 | = 0.976                                      
______________________________________                                    
 
    
     
         ______________________________________                                    
Example 2: Corresp. to FIG. 4 (Lens Structure) and                        
FIG. 10 (Aberration Diagram)                                              
______________________________________                                    
(f = 77.25˜ 193.00  FNo. = 3.60˜ 4.61)                        
        R         d           n     ν                                  
______________________________________                                    
 1      45.802    4.60        1.51742                                     
                                    52.4                                  
 2      130.896   0.30                                                    
 3      78.152    1.00        1.80518                                     
                                    25.4                                  
 4      43.134    5.80        1.51680                                     
                                    64.2                                  
 5      457.905   dV                                                      
 6      -96.922   1.00        1.69680                                     
                                    55.5                                  
 7      25.500    4.10        1.80518                                     
                                    25.4                                  
 8      76.588    3.50                                                    
 9      -54.646   1.00        1.60311                                     
                                    60.7                                  
10      79.923    dX                                                      
11      -249.862  3.60        1.48749                                     
                                    70.1                                  
12      -36.934   0.30                                                    
13      35.257    6.80        1.48749                                     
                                    70.1                                  
14      -49.715   1.00        1.80518                                     
                                    25.4                                  
15      -1681.074 0.30                                                    
16      38.821    3.00        1.48749                                     
                                    70.1                                  
17      104.753   18.50                                                   
18      89.722    5.00        1.51454                                     
                                    54.7                                  
19      -47.730   6.00                                                    
20      -26.000   1.00        1.78590                                     
                                    44.2                                  
21      23.028    3.00        1.72825                                     
                                    28.5                                  
22      -807.706                                                          
______________________________________                                    
(f.sub.1 = 100.00 f.sub.2 = -30.00 f.sub.3 = 33.00)                       
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       43.272        140.30                                              
T       63.216        162.49                                              
______________________________________                                    
        f              dV     dX                                          
______________________________________                                    
W        77.25         3.924  23.305                                      
M       127.92        22.021  12.415                                      
T       193.00        26.117   3.361                                      
______________________________________                                    
|M.sub.3 | = 1.356                                      
|M.sub.2 | = 0.984                                      
______________________________________                                    
 
    
     
         ______________________________________                                    
Example 3: Corresp. to FIG. 5 (Lens Structure) and                        
FIG. 11 (Aberration Diagram)                                              
______________________________________                                    
(f = 71.97˜ 202.54  FNo. = 4.12˜ 5.78)                        
        R        d            n     ν                                  
______________________________________                                    
 1      47.017   1.40         1.80518                                     
                                    25.4                                  
 2      34.546   7.00         1.51680                                     
                                    64.2                                  
 3      -439.705 dIII                                                     
 4      -95.125  1.00         1.69350                                     
                                    53.2                                  
 5      58.630   1.60                                                     
 6      -161.645 1.00         1.69350                                     
                                    53.2                                  
 7      32.668   3.60         1.78472                                     
                                    25.7                                  
 8      -240.205 1.10                                                     
 9      -51.674  1.00         1.69350                                     
                                    53.2                                  
10      505.180  dX                                                       
11      1289.983 2.90         1.48749                                     
                                    70.1                                  
12      -47.947  0.11                                                     
13      41.295   5.70         1.51680                                     
                                    64.2                                  
14      -39.960  1.00         1.80518                                     
                                    25.4                                  
15      345.901  0.25                                                     
16      34.254   3.56         1.51680                                     
                                    64.2                                  
17      704.282  17.90                                                    
18      64.837   1.00         1.74400                                     
                                    44.7                                  
19      19.190   4.25         1.59270                                     
                                    35.3                                  
20      -64.982  9.00                                                     
21      -21.305  1.00         1.69680                                     
                                    55.5                                  
22      -228.613                                                          
______________________________________                                    
(f.sub.1 = 100 f.sub.2 = -29.8 f.sub.3 = 31.5)                            
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       43.457        133.35                                              
T       64.317        161.69                                              
______________________________________                                    
        f             dIII    dX                                          
______________________________________                                    
W        71.97         3.267  22.259                                      
M       118.21        24.111  12.756                                      
T       202.54        31.609   1.399                                      
______________________________________                                    
|M.sub.3 | = 1.427                                      
|M.sub.2 | = 0.970                                      
______________________________________                                    
 
    
     
         ______________________________________                                    
Example 4: Corresp. to FIG. 6 (Lens Structure) and                        
FIG. 12 (Aberration Diagram)                                              
______________________________________                                    
(f = 72.00˜ 203.69  FNo. = 4.12˜ 5.78)                        
        R        d            n     ν                                  
______________________________________                                    
 1      49.952   1.40         1.80518                                     
                                    25.4                                  
 2      35.226   6.60         1.51680                                     
                                    64.2                                  
 3      -250.496 dIII                                                     
 4      -71.500  1.00         1.69680                                     
                                    55.5                                  
 5      21.112   3.50         1.80518                                     
                                    25.4                                  
 6      55.050   2.60                                                     
 7      -54.597  1.00         1.60311                                     
                                    60.7                                  
 8      276.201  dVIII                                                    
 9      105.240  4.10         1.48749                                     
                                    70.1                                  
10      -41.573  0.30                                                     
11      33.408   3.20         1.48749                                     
                                    70.1                                  
12      217.507  0.30                                                     
13      71.381   4.10         1.48749                                     
                                    70.1                                  
14      -42.445  1.00         1.80518                                     
                                    25.4                                  
15      417.237  25.00                                                    
16      145.651  1.00         1.74400                                     
                                    44.7                                  
17      24.411   4.00         1.59270                                     
                                    35.3                                  
18      -33.860  5.80                                                     
19      -22.841  1.00         1.69680                                     
                                    55.5                                  
20      -837.832                                                          
______________________________________                                    
(f.sub.1 = 100 f.sub.2 = -29.8 f.sub.3 = 31.9)                            
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       41.175        133.29                                              
T       62.197        161.93                                              
______________________________________                                    
        f             dIII    dVIII                                       
______________________________________                                    
W        72.099        3.087  23.131                                      
M       117.087       22.908  13.936                                      
T       203.691       31.729   2.105                                      
______________________________________                                    
|M.sub.3 | = 1.434                                      
|M.sub.2 | = 0.973                                      
______________________________________                                    
 
    
     
         ______________________________________                                    
Example 5: Corresp. to FIG. 7 (Lens Structure) and                        
FIG. 13 (Aberration Diagram)                                              
______________________________________                                    
(f = 72.10˜ 205.91  FNo. = 4.12˜ 5.78)                        
        R        d            n     ν                                  
______________________________________                                    
 1      49.855   1.40         1.80518                                     
                                    25.4                                  
 2      35.065   6.60         1.51680                                     
                                    64.2                                  
 3      -249.785 dIII                                                     
 4      -72.800  1.00         1.69680                                     
                                    55.5                                  
 5      20.983   3.50         1.80518                                     
                                    25.4                                  
 6      53.274   2.60                                                     
 7      -57.838  1.00         1.60311                                     
                                    60.7                                  
 8      238.460  dVIII                                                    
 9      230.948  4.10         1.48749                                     
                                    70.1                                  
10      -36.522  0.30                                                     
11      34.907   2.80         1.48749                                     
                                    70.1                                  
12      82.936   0.30                                                     
13      36.394   5.00         1.48749                                     
                                    70.1                                  
14      -47.014  1.00         1.80518                                     
                                    25.4                                  
15      230.855  25.00                                                    
16      -198.632 1.00         1.74400                                     
                                    44.7                                  
17      23.666   4.00         1.59270                                     
                                    35.3                                  
18      -25.587  5.80                                                     
19      -19.438  1.00         1.69680                                     
                                    55.5                                  
20      -88.124                                                           
______________________________________                                    
(f.sub.1 = 100 f.sub.2 = -29.8 f.sub.3 = 31.9)                            
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       40.293        133.83                                              
T       59.789        161.32                                              
______________________________________                                    
        f             dIII    dVIII                                       
______________________________________                                    
W        72.10          3.085 24.056                                      
M       114.03        22.263  15.436                                      
T       205.91        32.749   2.385                                      
______________________________________                                    
|M.sub.3 | = 1.434                                      
|M.sub.2 | = 1.007                                      
______________________________________                                    
 
    
     
         ______________________________________                                    
Example 6: Corresp. to FIG. 8 (Lens Structure) and                        
FIG. 14 (Aberration Diagram)                                              
______________________________________                                    
(f = 72.05˜ 203.70  FNo. = 4.12˜ 5.78)                        
        R        d            n     ν                                  
______________________________________                                    
 1      50.231   1.40         1.80518                                     
                                    25.4                                  
 2      35.694   6.60         1.51680                                     
                                    64.2                                  
 3      -252.543 dIII                                                     
 4      -73.421  1.00         1.69680                                     
                                    55.5                                  
 5      21.738   3.50         1.80518                                     
                                    25.4                                  
 6      54.818   2.60                                                     
 7      -51.034  1.00         1.60311                                     
                                    60.7                                  
 8      408.728  dVIII                                                    
 9      231.716  4.10         1.48749                                     
                                    70.1                                  
10      -36.919  0.30                                                     
11      33.094   3.20         1.48749                                     
                                    70.1                                  
12      97.288   0.30                                                     
13      42.705   4.30         1.48749                                     
                                    70.1                                  
14      -46.511  1.00         1.80518                                     
                                    25.4                                  
15      296.242  25.00                                                    
16      -342.143 1.00         1.74400                                     
                                    44.7                                  
17      25.003   4.00         1.59270                                     
                                    35.3                                  
18      -27.813  5.80                                                     
19      -20.345  1.00         1.69680                                     
                                    55.5                                  
20      -103.317                                                          
______________________________________                                    
(f.sub.1 = 100 f.sub.2 = -29.8 f.sub.3 = 31.9)                            
        Back-focus Length                                                 
                      Total Optical Length                                
______________________________________                                    
W       39.765        133.48                                              
T       61.576        161.79                                              
______________________________________                                    
        f             dIII    dVIII                                       
______________________________________                                    
W        72.05          4.06  23.56                                       
M       117.95        23.06   14.06                                       
T       203.70        31.73    2.39                                       
______________________________________                                    
|M.sub.3 | = 1.409                                      
|M.sub.2 | = 0.973                                      
______________________________________                                    
 
    
     As has been described in the foregoing, the distance from the first plane at the wide angle end to the imaging point is about 130 to 140 mm as shown in the above embodiments. When the lens is used as a telephoto zoom lens for single-lens reflex cameras, a lens barrel having a length less than 100 mm can be used. Thus, it is possible to realize an extremely compact structure compared to the prior art telephoto zoom lens. The structure thus has an advantage that it enjoys high operability and portability and can be manufactured inexpensively.