Mercury arc lamp suitable for inclusion in a flow cytometry apparatus
First Claim
1. A mercury arc lamp comprising:
- a glass envelope including a center portion;
a cathode and an anode sealed within said envelope, the internal ends of said cathode and said anode lying in close proximity to each other within said center portion of the envelope;
an electrically conductive positive contact connected to said anode;
an electrically conductive negative contact connected to said cathode;
the interior of said envelope containing mercury and cadmium near said cathode and said anode; and
a pair of metallic-based reflective coatings around said envelope, each coating located near an internal end of the cathode and the anode, respectively, with a space between said metallic-based coatings, said space having a reflective dielectric coating thereon so that the arc between the cathode and the anode is adapted to emit ultraviolet and visible radiation through said reflective dielectric coating, but wherein said dielectric coating is adapted to reflect infrared wavelengths into the interior of said envelope.
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Accused Products
Abstract
A mercury arc lamp comprises a glass envelope including a center portion. A cathode and an anode are sealed within the envelope. The internal ends of the cathode and the anode lie in close proximity to each other within the center portion of the envelope. Electrically conductive positive and negative contacts are connected to the anode and the cathode, respectively. The interior of the envelope contains mercury and cadmium to be vaporized during operation of the lamp. A pair of reflective coatings is around the envelope. Each coating is located near an internal end of the cathode and the anode, respectively, with a space between the coatings so that the arc between the cathode and the anode is adapted to emit radiation through the space. A flow cytometry apparatus which uses a mercury arc lamp such as described above, is also within the purview of the present invention.
20 Citations
11 Claims
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1. A mercury arc lamp comprising:
- a glass envelope including a center portion;
a cathode and an anode sealed within said envelope, the internal ends of said cathode and said anode lying in close proximity to each other within said center portion of the envelope;an electrically conductive positive contact connected to said anode; an electrically conductive negative contact connected to said cathode; the interior of said envelope containing mercury and cadmium near said cathode and said anode; and a pair of metallic-based reflective coatings around said envelope, each coating located near an internal end of the cathode and the anode, respectively, with a space between said metallic-based coatings, said space having a reflective dielectric coating thereon so that the arc between the cathode and the anode is adapted to emit ultraviolet and visible radiation through said reflective dielectric coating, but wherein said dielectric coating is adapted to reflect infrared wavelengths into the interior of said envelope. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- a glass envelope including a center portion;
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9. A mercury arc lamp comprising:
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a glass envelope including a center portion;
a cathode and an anode sealed within said envelope, the internal ends of said cathode and said anode lying in close proximity to each other within said center portion of the envelope;an electrically conductive positive contact connected to said anode; an electrically conductive negative contact connected to said cathode; the interior of said envelope containing mercury near said cathode and said anode; and a pair of metallic-based reflective coatings around said envelope, each coating located near an internal end of the cathode and the anode, respectively, with a space between said metallic-based coatings, said space having a reflective dielectric coating thereon so that the arc between the cathode and the anode is adapted to emit ultraviolet and visible radiation through said reflective dielectric coating, but wherein said dielectric coating is adapted to reflect infrared wavelengths into the interior of said envelope.
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10. A long-life, high pressure mercury arc lamp comprising:
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a substantially cylindrical quartz envelope having a bulbous center portion; a cathode and an anode sealed within said envelope, the internal ends of said cathode and said anode lying in close proximity to each other within said bulbous center portion of the envelope, the interior of said envelope including sufficient amounts of mercury and cadmium to be vaporized when an electric current is applied to the cathode and the anode; an electrically conductive positive contact at one end of the envelope connected to said anode; an electrically conductive negative contact at the other end of the envelope connected to said cathode, said contacts adapted to make contact with an outside source for providing an electric current to said cathode and said anode; and a pair of gold-based, reflective coatings around the exterior surface of said envelope, each coating located near an internal end of the cathode and the anode, respectively, with a space between said gold-based coatings, said space having a reflective dielectric coating thereon so that the arc between the anode and the cathode is adapted to emit ultraviolet radiation through said reflective dielectric coating, but wherein said reflective dielectric coating is adapted to reflect infrared wavelengths into the interior of said envelope.
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11. A flow cytometry apparatus for determining one or more characteristics of particles or the like flowing in a liquid stream comprising;
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means for moving particles, substantially one at a time in a liquid flow stream; a mercury arc lamp for providing a beam of light directed toward said particles moving in said stream; means for detecting light associated with respect to each moving particle and for associating said detected light with one or more characteristics of each particle, wherein said mercury arc lamp is characterized by a glass envelope including a center portion;
a cathode and an anode sealed within said envelope, the internal ends of said cathode and said anode lying in close proximity to each other within said center portion of the envelope, an electrically conductive positive contact connected to said anode;
an electrically conductive negative contact connected to said cathode;
the interior of said envelope containing mercury and cadmium near said cathode and said anode; and
a pair of metallic-based reflective coatings around said envelope, each coating located near an internal end of the cathode and the anode, respectively, with a space between said metallic-based coatings, said space having a reflective dielectric coating thereon so that the arc between the cathode and the anode is adapted to emit ultraviolet and visible radiation through said reflective dielectric coating directed toward said particles moving in said stream, but wherein said reflective dielectric coating is adapted to reflect infrared wavelengths into the interior of said envelope.
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Specification