Multipass cavity for illumination and excitation of moving objects
First Claim
1. An illumination system adapted to increase an amount of light incident upon an object that is moving relative to the illumination system, comprising:
- (a) a light source producing a beam of light;
(b) a first reflecting surface and a second reflecting surface disposed opposite each other and maintained in a facing relationship so as to define a reflection cavity, the first reflecting surface and the second reflecting surface being separated by a defined distance, said reflection cavity having a field of view through which the object passes between the first reflecting surface and the second reflecting surface, said beam of light being incident upon the first reflecting surface at an acute angle relative to a normal to the first reflecting surface, the angle and the distance being selected such that said beam of light is reflected back and forth between the first and second reflecting surfaces so as to cross the field of view a predefined number of times, said beam of light thus being incident on the object a plurality of times as the object traverses the field of view; and
(c) a detector disposed such that light from the object is incident upon the detector, while said beam of light is not incident upon the detector.
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Accused Products
Abstract
An illumination system for increasing a light signal from an object passing through a reflection cavity. The reflection cavity is disposed between spaced-apart, opposed first and second surfaces disposed on opposite sides of a moving stream of objects. A light collection system is disposed substantially orthogonal to a plane passing through the surfaces and the stream so as to collect light that is scattered from or emitted by the objects as they pass through a field of view disposed between the first and second surfaces. A beam of light from a laser source is directed through the stream of moving objects in a direction nearly orthogonal to the stream (but slightly inclined) and lying in the plane that extends through the surfaces and the stream. Due to the reflection angle and the distance between the stream and the first surface, the point at which the light reflected from the first surface intersects the stream on a second pass is displaced from where it passed though the stream on its initial pass. The light is reflected back and forth between the surfaces a plurality of times, illuminating a different portion of the field of view with each pass until, having ranged over the field of view, the light exits the reflection cavity. The “recycling” of the light beam in this manner substantially improves the SNR of the detection system by increasing an average illumination intensity experienced by the objects in the stream.
99 Citations
18 Claims
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1. An illumination system adapted to increase an amount of light incident upon an object that is moving relative to the illumination system, comprising:
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(a) a light source producing a beam of light;
(b) a first reflecting surface and a second reflecting surface disposed opposite each other and maintained in a facing relationship so as to define a reflection cavity, the first reflecting surface and the second reflecting surface being separated by a defined distance, said reflection cavity having a field of view through which the object passes between the first reflecting surface and the second reflecting surface, said beam of light being incident upon the first reflecting surface at an acute angle relative to a normal to the first reflecting surface, the angle and the distance being selected such that said beam of light is reflected back and forth between the first and second reflecting surfaces so as to cross the field of view a predefined number of times, said beam of light thus being incident on the object a plurality of times as the object traverses the field of view; and
(c) a detector disposed such that light from the object is incident upon the detector, while said beam of light is not incident upon the detector. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An illumination system adapted to increase an amount of light incident upon an object that is moving relative to the illumination system, comprising:
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(a) a light source producing a beam of light; and
(b) a first reflecting surface and a second reflecting surface separated by a defined distance and disposed opposite each other and maintained in a facing relationship so as to define a reflection cavity, said reflection cavity having a field of view through which the object passes between the first reflecting surface and the second reflecting surface, said first reflecting surface being disposed in a non parallel orientation with respect to said second reflecting surface, said beam of light being incident upon the first reflecting surface at an acute angle relative to a normal to the first reflecting surface, the distance and the angle being selected so that said beam of light is reflected back and forth between the first and second surfaces so as to cross the field of view a defined number of times, said beam of light being incident on the object a plurality of times as the object traverses the field of view.
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14. An illumination system adapted to increase an amount of light incident upon an object that is moving relative to the illumination system, comprising:
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(a) a light source producing a beam of light; and
(b) a first reflecting surface and a second reflecting surface disposed opposite each other and separated by a defined distance, such that they are maintained in a facing relationship so as to define a reflection cavity having a field of view through which the object passes between the first reflecting surface and the second reflecting surface, at least one of said first and said second reflecting surfaces being curved so as to have an optical power greater than one, said beam of light being incident upon the first reflecting surface at an acute angle relative to a normal to the first reflecting surface, the angle and the distance being selected such that said beam of light is reflected back and forth between the first and second surfaces so as to cross the field of view a specified number of times, said beam of light being incident on the object as the object traverses the field of view and focused upon the object by said at least one of said first and second reflecting surfaces that is curved. - View Dependent Claims (15, 16)
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17. An illumination system adapted to increase an amount of light incident upon an object that is moving relative to the illumination system, comprising:
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(a) a light source producing a beam of light;
(b) a first reflecting surface and a second reflecting surface separated by a defined distance and disposed opposite each other in a facing relationship so as to define a reflection cavity, said reflection cavity having a field of view through which the object passes between the first reflecting surface and the second reflecting surface, said beam of light being incident upon the first reflecting surface at an acute angle relative to a normal to the first reflecting surface, said distance and said angle having been selected such that said beam of light is reflected back and forth between the first and second reflecting surfaces so as to cross the field of view a defined number of times, said beam of light thus being incident on the object a plurality of times as the object traverses the field of view, and (c) means for reflecting the beam of light exiting the reflecting cavity back along its path and into the reflection cavity, so that the beam of light is again reflected back and forth across the reflection cavity between the first reflecting surface and the second reflecting surface, traversing the reflection cavity a further defined number of times. - View Dependent Claims (18)
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Specification