Optical: systems and elements – Lens – Multiple component lenses
Reexamination Certificate
2001-05-01
2003-02-11
Schwartz, Jordan M. (Department: 2873)
Optical: systems and elements
Lens
Multiple component lenses
C359S661000, C348S552000
Reexamination Certificate
active
06519098
ABSTRACT:
BACKGROUND OF THE INVENTION
a) Field of the Invention
The present invention relates to an objective lens system which uses a radial type gradient index lens element.
b) Description of the Prior Art
As conventional examples of lens systems having relatively wide field angle and high optical performance which are used, for example, as objective lens systems for endoscopes, there are known many lens systems such as a lens system disclosed by Japanese Patent Kokoku Publication No. Sho 60-46410 shown in
FIG. 1. A
conventional example shown in
FIG. 1
is a lens system of the so-called retrofocus type which is composed, in order from the object side, of a front lens unit having negative refractive power, a stop and a rear lens unit having a positive refractive power. In this lens system, the front lens unit has a function to widen a field angle and another function to correct curvature of field by reducing a Petzval's sum of the lens system as a whole, the rear lens unit serves for suppressing production of spherical aberration and coma by distributing refractive powers among three positive lens elements and a cemented lens component, and the cemented lens component corrects lateral chromatic aberration which poses a problem, in particular, in a lens system which has a wide field angle. Though this conventional example favorably corrects aberrations, it is composed of lens elements in a number as large as six, thereby posing a problem of low producibility or a high manufacturing cost. Accordingly, it is expected to develop a retrofocus type objective lens system for endoscopes which is composed of an extremely small number of lens elements and has a high producibility. However, a lens system which favorably corrects aberrations and has high optical performance can hardly be composed of two homogenous spherical lens elements.
Further, an endoscope is generally equipped with a system for illuminating a location to be observed since it is used frequently for observing and photographing dark locations such as interiors of human bodies, aircraft engines, pipings and so on. In addition, an objective lens system for endoscopes has an NA which is not so large for obtaining a large depth of field. Accordingly, axial aberrations do not pose a serious problem, but a wide field angle and a negative-positive asymmetrical composition as shown in
FIG. 1
make it difficult to correct offaxial aberrations. When an objective lens system is to be composed of two negative and positive lens elements, it is impossible to use a cemented lens component as in the objective lens system disclosed by Japanese Patent Kokoku Publication No. Sho 60-46410 mentioned above as the conventional example, whereby lateral chromatic aberration can hardly be corrected and offaxial imaging performance is remarkably degraded. It is therefore difficult to favorably correct offaxial aberrations with two homogenous lens elements so as to obtain favorable offaxial imaging performance.
It is therefore conceivable to use a radial type gradient index lens element which is characterized in that it corrects chromatic aberration in particular more favorably than a homogenous lens element. As a conventional example of an objective lens system for endoscopes which uses a radial type gradient index lens element and is composed of two lens elements, there is known a lens system disclosed by Japanese Patent Kokai Publication No. Sho 52-29238. However, this conventional example has a field angle as narrow as 72° which is insufficient for use as an objective lens system for endoscopes.
Further, a lens system disclosed by Japanese Patent Kokai Publication No. Hei 5-107471, for example, is known as a conventional example of an objective lens system having a wide field angle obtained with two lens elements. Though this example uses a radial type gradient index lens element, it does not effectively make use of the chromatic aberration correcting capability of the radial type gradient index lens element and does not sufficiently correct lateral chromatic aberration which poses a problem in a lens system having a wide field angle in particular.
SUMMARY OF THE INVENTION
A primary object of the present invention is to provide an objective lens system which is composed of lens elements in a number on the order of 2, that favorably corrects aberrations and has a wide field angle.
The objective lens system according to the present invention is characterized in that it comprises, in order from the object side, a first lens unit having a negative refractive power and a second lens unit having a positive refractive power, that at least the first lens unit comprises a radial gradient index lens element which has a refractive index distribution in a radial direction of the lens element; and that the first lens unit satisfies that following condition (1):
1/V
10
<1/V
00
(1)
wherein the reference symbols V
00
and V
10
represent parameters expressing a dispersing power of the radial type gradient index lens element which are given by the following formula (b) and (c) respectively:
V
00
═(N
00d
-1)/(N
00F
-N
00C
) (b)
V
10
═N
10d
/(N
10F
-N
10C
) (c)
wherein the reference symbols N
00d
, N
00F
, and N
00C
represent refractive indices of the radial type gradient index lens element for the d-line, F-line and C-line respectively, and the reference symbols N
10d
, N
10F
, and N
10C
) designate values of a coefficient of a term r
2
for the d-line, F-line and C-line respectively when a refractive indices of the radial type gradient index lens element is expressed in a form of a poly-nominal. In embodiments of the present invention which are to be described later, refractive indices of radial type gradient index lens element are given by the following formula (a):
n(r)═N
00
+N
10
r
2
+N
20
r
4
+. . . (a)
wherein the reference symbol r represent a distance as measured from an optical axis in a radial direction of the radial type gradient index element and the reference symbol n(r) designates a refractive index of a portion of the radial type gradient index lens element located at the distance r.
Further, the objective lens system according to the present invention is characterized in: that it is composed, in order from the object side, of a first lens unit having a negative refractive power, and a second lens unit having a positive refractive power, that at least the second lens unit comprises a radial type gradient index lens element having a refractive index distribution in a radial direction of the lens element, and that the second lens unit satisfies the following conditions (1) and (3):
1/V
10
<1V
00
(1)
0.05<&phgr;
2m
/&phgr;<1.0 (3)
wherein the reference symbols &phgr;
2m
represents a refractive index of a medium of the radial type gradient lens element used in the second lens unit.
Further, it is desirable that the objective lens system according to the present invention described above satisfies the following condition (2):
−0.5<&phgr;
1m
/&phgr;<−0.02 (2)
wherein the reference symbol &phgr;
1m
represent a refractive power of a medium of the radial type gradient index lens element used in the first lens unit and the reference symbol &phgr; designates a refractive power of the objective lens system as a whole.
REFERENCES:
patent: 4784478 (1988-11-01), Takada
patent: 5268791 (1993-12-01), Tsuchida
patent: 5353133 (1994-10-01), Bernkopf
patent: 5359456 (1994-10-01), Kikuchi
patent: 5377047 (1994-12-01), Broome et al.
patent: 5541775 (1996-07-01), Kiriki
patent: 5631779 (1997-05-01), Kashima
patent: 5680259 (1997-10-01), Yamada
patent: 5729389 (1998-03-01), Nagaoka
patent: 52-29238 (1977-04-01), None
patent: 57-64207 (1982-04-01), None
patent: 5-107471 (1983-04-01), None
Olympus Optical Co,. Ltd.
Pillsbury & Winthrop LLP
Schwartz Jordan M.
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