Illumination – Light source and modifier – Including reflector
Reexamination Certificate
2001-10-23
2003-05-20
O'Shea, Sandra (Department: 2875)
Illumination
Light source and modifier
Including reflector
C362S305000
Reexamination Certificate
active
06565235
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to increasing the brightness of an arc lamp by folding the arc back into itself.
2. Description of the Related Art
U.S. patent application Ser. No. 09/604,921, the disclosure of which is incorporated by reference, describes a dual-paraboloid reflector system that may be used to couple light from an arc lamp into a target such as a standard waveguide, e.g., a single fiber or fiber bundle, or output electromagnetic radiation to the homogenizer of a projector. This optical collection and condensing system, as illustrated in
FIG. 1
, uses two generally symmetric paraboloid reflectors
10
,
11
that are positioned so that light reflected from the first reflector
10
is received in a corresponding section of the second reflector
11
. In particular, light emitted from a light source
12
, such as an arc lamp, is collected by the first parabolic reflector
10
and collimated along the optical axis toward the second reflector
11
. The second reflector
11
receives the collimated beam of light and focuses this light at the target
13
positioned at the focal point.
The optical system of
FIG. 1
may employ a retro-reflector
14
in conjunction with the first paraboloid reflector
10
to capture radiation emitted by the light source
12
in a direction away from the first paraboloid reflector
10
and reflect the captured radiation back through the light source
12
. In particular, the retro-reflector
14
has a generally spherical shape with a focus located substantially near the light source
12
(i.e., at the focal point of the first paraboloid reflector) toward the first paraboloid reflector to thereby increase the intensity of the collimated rays reflected therefrom.
U.S. application Ser. No. 09/669,841, the disclosure of which is incorporated by reference, describes a dual ellipsoidal reflector system that may be used to couple light from an arc lamp into a target. This optical collection and condensing system, as illustrated in
FIG. 2
, uses two generally symmetric ellipsoid reflectors
20
,
21
that are positioned so that light reflected from the first reflector
20
is received in a corresponding section of the second reflector
21
. In particular, light emitted from the light source
22
is collected by the first elliptical reflector
20
and collimated along the optical axis
25
toward the second reflector
21
. The second reflector
21
receives the collimated beam of light and focuses this light at the target
23
positioned at the focal point.
The objective of the above-described systems that collect, condense, and couple electromagnetic radiation into a target is to maximize the brightness of the electromagnetic radiation at the target. These systems must be efficient and have relatively long useful lives.
Arc lamps, e.g., metal halide lamps, xenon lamps, or high pressure mercury lamps, are often used in the above-mentioned systems as sources of light. One of the means by which high brightness may be obtained is by making the arc gap in the lamp small such that all the light is emitted from a small spot. An ideal source is a point source, in which the distance between the electrodes is negligible. There are practical limitations, however, to reducing the distance between the electrodes below a certain value. Among the limitations associated with a shorter arc are a loss of emission efficiency and reduced electrode life. The useful lives of the electrodes will be shorter with the shorter arc.
Since arc lamp gaps cannot be reduced indefinitely, there remains a need to increase the brightness of the electromagnetic radiation emitted by arc lamps with longer gaps for coupling into a target.
SUMMARY
An optical device is provided for increasing the brightness of electromagnetic radiation emitted by a source and coupled into a target by folding the electromagnetic radiation back on itself. The optical device includes the source of electromagnetic radiation, which has a first width; a first light pipe with a first input end and a reflective end, the first input end having a second width; a second light pipe disposed parallel to the first light pipe, the second light pipe further having a second input end juxtaposed to the first input end of the first light pipe and an output end, the second input end having a third width; a first reflector having a first optical axis and a first focal point on the first optical axis; and a second reflector having a second optical axis and a second focal point on the second optical axis disposed substantially symmetrically to the first reflector such that the first optical axis is substantially collinear with the second optical axis. The source is located substantially proximate to the first focal point of the first reflector to produce rays of radiation that reflect from the first reflector to the second reflector and substantially converge at the second focal point; and the input ends of the first and second light pipes are located proximate to the second focal point of the second reflector to collect the electromagnetic radiation. The first width is substantially equal to or smaller than the sum of the second and the third widths.
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Cogent Light Technologies Inc.
Negron Ismael
Rothwell Figg Ernst & Manbeck p.c.
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