Optics: measuring and testing – By light interference
Reexamination Certificate
2001-02-16
2003-10-21
Kim, Robert H. (Department: 2882)
Optics: measuring and testing
By light interference
C356S451000, C356S455000, C356S498000
Reexamination Certificate
active
06636317
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an optical interferometer which is used, for example, in the field of the optical instrumentation engineering.
2. Description of the Related Art
FIG. 3
is a view showing an outline structural example of a conventional optical interferometer. In
FIG. 3
, numeral
1
is an optical fiber, numeral
2
is a lens, numeral
3
is an incident light beam, numeral
4
is a beam splitter, numerals
5
and
6
are reflection units, and numeral
7
is a light receiver.
The optical interferometer converts, as shown in
FIG. 3
, the incident light beam
3
from the optical fiber
1
into a parallel light beam by the lens
2
, and branches the parallel light beam to two optical paths of a transmission light beam and a reflection light beam which are perpendicular to each other, by the beam splitter
4
, and the reflection light beams by the reflection units
5
and
6
placed in the respective optical paths at a right angle, are wave-combined again by the beam splitter
4
.
At this time, when a stage, not shown, on which the reflection unit
5
is arranged, is moved at a constant speed, a difference is caused in the optical path length of the reflection light from the two reflection units
5
and
6
, and a change of the intensity of interference fringes is observed.
The intensity change of the interference fringes is output by the light receiver
7
as an electric signal.
As described above, in the conventional optical interferometer, the beam splitter
4
is perpendicularly arranged to the incident optical axis, however, the light beams reflected by the incident surface and the emitting surface of the beam splitter
4
are interfered with each other, or return to the fiber
1
, thereby, stable measurements are difficult.
SUMMARY OF THE INVENTION
Accordingly, an object of the present invention is to eliminate such a reflection light beam, and to provide an optical interferometer which can conduct stable measurements.
In order to solve the above problems, the invention according to a first aspect is an optical interferometer which is characterized by a structure provided with: an optical fiber in which a measured light beam is incident; a lens to convert the incident light beam from the optical fiber into a parallel light beam; a beam splitter which branches the incident light beam to two optical paths which are perpendicular to each other by a reflection light beam and a transmission light beam, and is arranged with a little inclination from the verticality to the incident light beam; a first reflection unit to reflect the light beam to a position which is moved in parallel with the reflected light beam from the beam splitter; a second reflection unit to reflect the light beam to a position which is moved in parallel with the transmitted light beam from the beam splitter; and the light receiver to receive the light wave-combined by the beam splitter.
Herein, as the reflection unit, a reflector is representative, or instead of the reflector, for example, a corner cube can be used. The light receiving unit is a unit to output the intensity change of interference fringes as an electrical signal.
As described above, according to the invention of the first aspect, because the beam splitter is not perpendicularly arranged to the incident optical axis, but arranged with the inclination, the light beam reflected on the incident surface does not pass through the same optical path as the incident optical path, and therefore, the light beam does not return to the optical fiber.
Further, the light beam reflected on an emitting surface of the beam splitter does not pass through the same optical path in the beam splitter. Accordingly, the interference in the beam splitter can be avoided and stable measurements can be conducted.
The invention according to a second aspect is the optical interferometer which is characterized by a structure provided with: an optical fiber in which a measured light beam is incident; a lens arranged at a position at which the incident optical axis is inclined by shifting the central axis of the optical fiber and the central axis of the lens; a beam splitter which branches the incident light beam to two optical paths which are perpendicular to each other by a reflection light beam and a transmission light beam; a second reflection unit to reflect the light beam to a position which is moved in parallel with the transmitted light beam from the beam splitter; and a light receiver to receive the light wave-combined by the beam splitter.
Herein, as the reflection unit, a reflector is representative, or instead of the reflector, for example, a corner cube can be used. The light receiving unit is a unit to output the intensity change of interference fringes as an electrical signal.
As described above, according to the invention of the second aspect, in the same manner as the invention according to the first aspect, because the incident optical axis is inclined, the light beam reflected on the incident surface does not pass through the same optical path as the incident optical path, therefore, the light beam does not return to the optical fiber.
Further, the light beam reflected on an emitting surface of the beam splitter does not pass through the same optical path in the beam splitter. Accordingly, the interference in the beam splitter can be avoided and the stable measurements can be conducted.
The invention according to a third aspect is the optical interferometer according to either one of the first and second aspects, and is characterized by a structure in which the first and the second reflection units are reflectors.
As described above, according the invention of the third aspect, because the first and the second reflection units are the optical interferometers, which are the reflectors, the reflection light beam from the beam splitter is reflected to a position which is moved in parallel with the reflection light beam by the first reflector, and on the one hand, the transmission light beam from the beam splitter is reflected to a position which is moved in parallel with the transmission light beam by the second reflector, and these can be incident into the beam splitter.
The invention according to a fourth aspect is the optical interferometer according to either one of the first and second aspects, and is characterized by a structure in which the first and the second reflection units are corner cubes.
As described above, according to the invention of the fourth aspect, because the first and the second reflection units are the optical interferometers, which are the corner cubes, the reflection light beam from the beam splitter is reflected to a position which is moved in parallel with the reflection light beam by the first corner cube, and on the one hand, the transmission light beam from the beam splitter is reflected to a position which is moved in parallel with the transmission light by the second corner cube, and these can be incident into the beam splitter.
The invention according to a fifth aspect is the optical interferometer according to either one of the first or second aspect, and is characterized by a structure in which the optical fiber is an obliquely polished optical fiber.
As described above, according to the invention according to the fifth aspect, because the optical fiber is the optical interferometer, which is the obliquely polished optical fiber, the reflection on the connector end of the optical fiber is suppressed, and the returning light from the lens can be decreased.
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patent: 0 480 027 (1992-04-01), None
patent: 61-140802 (1986-06-01), None
Ando Electric Co. Ltd.
Fish & Richardson P.C.
Kim Robert H.
Yun Jurie
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