High throughput optical scanner
First Claim
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1. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
- a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
a means for collecting scattered or emitted light from the substrate and directing said scattered or emitted light to a photodetector, said emitted or scattered light possessing a substantially constant optical pathlength from excitation spot on said substrate to the photodetector;
the photodetector positioned to receive emitted or scattered light from said means for collecting scattered or emitted light;
said optical train being constructed and arranged such that a substantially constant optical pathlength from light source to the photodetector is maintained throughout the sweep of said beam across the substrate.
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Abstract
A scanning apparatus is provided to obtain automated, rapid and sensitive scanning of substrate fluorescence, optical density or phosphorescence. The scanner uses a constant path length optical train, which enables the combination of a moving beam for high speed scanning with phase-sensitive detection for noise reduction, comprising a light source, a scanning mirror to receive light from the light source and sweep it across a steering mirror, a steering mirror to receive light from the scanning mirror and reflect it to the substrate, whereby it is swept across the substrate along a scan arc, and a photodetector to receive emitted or scattered light from the substrate, wherein the optical path length from the light source to the photodetector is substantially constant throughout the sweep across the substrate. The optical train can further include a waveguide or mirror to collect emitted or scattered light from the substrate and direct it to the photodetector. For phase-sensitive detection the light source is intensity modulated and the detector is connected to phase-sensitive detection electronics. A scanner using a substrate translator is also provided. For two dimensional imaging the substrate is translated in one dimension while the scanning mirror scans the beam in a second dimension. For a high throughput scanner, stacks of substrates are loaded onto a conveyor belt from a tray feeder.
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Citations
25 Claims
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1. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
a means for collecting scattered or emitted light from the substrate and directing said scattered or emitted light to a photodetector, said emitted or scattered light possessing a substantially constant optical pathlength from excitation spot on said substrate to the photodetector;
the photodetector positioned to receive emitted or scattered light from said means for collecting scattered or emitted light;
said optical train being constructed and arranged such that a substantially constant optical pathlength from light source to the photodetector is maintained throughout the sweep of said beam across the substrate. - View Dependent Claims (2, 3, 4, 10, 11, 12, 16, 17, 22)
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5. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a cylindrically curved steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc; and
the photodetector positioned to receive emitted or scattered light from the substrate;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate. - View Dependent Claims (6, 7, 8, 9)
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13. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
the photodetector positioned to receive emitted or scattered light from the substrate; and
a collection mirror positioned between said substrate and said photodetector, said collection mirror having a profile that is a parabolic section;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate. - View Dependent Claims (14, 15)
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18. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
a wedge-shaped collection waveguide positioned between said substrate and said photodetector, said waveguide having a collection end and a photodetector end, wherein the wide end of the wedge is said collection end and is beveled; and
the photodetector positioned to receive emitted or scattered light from said waveguide;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate. - View Dependent Claims (19, 20)
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21. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
a collection waveguide positioned between said substrate and said photodetector, said waveguide having a collection end and a photodetector end, wherein the collection end has a curvature substantially matching the scan arc; and
the photodetector positioned to receive emitted or scattered light from said waveguide;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate.
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23. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
the photodetector positioned to receive emitted or scattered light from the substrate;
a substrate holder for positioning the substrate in a measurement region to receive said light beam from said steering mirror; and
an electrophoresis apparatus coupled to said substrate;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate.
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24. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector, comprising:
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a light source for providing a light beam;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
the photodetector positioned to receive emitted or scattered light from the substrate;
a substrate holder for positioning the substrate in a measurement region to receive said light beam from said steering mirror; and
a sample extractor cooperatively connected to said substrate holder;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate.
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25. A constant pathlength optical train for coupling light to a substrate and for coupling scattered or emitted light from the substrate to a photodetector comprising:
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a light source for providing a light beam, wherein said light source is an intensity modulated light source;
a scanning mirror assembly positioned to receive said light beam from said light source and sweep it across a steering mirror;
the steering mirror having a radius of curvature equal to the distance between the scanning mirror and the steering mirror, positioned to receive said light beam from said scanning mirror assembly and reflect it to the substrate, whereby it is swept across the substrate along a scan arc;
the photodetector positioned to receive emitted or scattered light from the substrate; and
a substrate holder for positioning the substrate in a measurement region to receive said light beam from said steering mirror;
said device being constructed and arranged such that a substantially constant optical pathlength from the light source to the photo detector is maintained throughout the sweep of said beam across the substrate.
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Specification
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Current AssigneeUniversity of Washington, Washington University In St Louis
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Original AssigneeUniversity of Washington
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InventorsBasiji, David A., van den Engh, Gerrit J.
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Primary Examiner(s)Spyrou, Cassandra
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Assistant Examiner(s)BOUTSIKARIS, LEONIDAS
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Application NumberUS09/196,476Time in Patent Office845 DaysField of Search359/201, 359/202, 359/208, 359/212, 359/213, 359/214, 359/216, 359/217, 359/218, 359/219, 250/234, 250/584, 250/585, 250/586, 250/591, 250/458.1, 356/337, 356/317, 356/318, 356/417, 356/445-6, 356/344US Class Current359/212.1CPC Class CodesG01J 3/443 Emission spectrometryG01J 3/45 Interferometric spectrometryG06K 7/10801 Multidistance reading
