Device for optically measuring a cryogenic temperature
First Claim
1. A device for optically measuring the temperatures of cryogenic fluids by analyzing the decay in the luminescence of a doped crystal, the device comprising a light source for exciting said crystal, optical fiber means for transporting the light flux emitted by said source to the crystal and for returning to a detection assembly the luminescent light emitted by the crystal as a result, and a measurement probe past which the fluid moves, wherein the doped crystal is constituted by one of the crystals from the group consisting of strontium fluoride doped with divalent ytterbium, SrF2 :
- Yb2+ and calcium fluoride doped with divalent ytterbium, CaF2 Yb2+, wherein said measurement probe is constituted by a housing having the doped crystal at an interior end thereof in the form of a crystal covering, a capillary surrounding the optical fiber means, the optical fiber means being placed in said housing facing said covering and defining a chamber between the end of said fiber and the covering, and wherein the housing includes at least one fluid inlet orifice disposed perpendicularly to the axis of the fiber and opening out into the chamber and at least one fluid outlet orifice opposite to the fluid inlet orifice.
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Accused Products
Abstract
The present invention relates to a device for optically measuring the temperatures of cryogenic fluids by analyzing the decay in the luminescence of a doped crystal, the device comprising a light source for exciting said crystal, an optical fiber for transporting the light flux emitted by said source to the crystal and for returning to a detection assembly the luminescent light emitted by the crystal as a result, and a measurement probe past which the fluid moves, wherein the doped crystal is constituted by one of the crystals from the group comprising strontium fluoride doped with divalent ytterbium, SrF2 :Yb2+ ; and calcium fluoride doped with divalent ytterbium, CaF2 :Yb2+. The crystal is placed at an interior end of a housing constituting the probe. The fiber has a surrounding capillary being placed in the housing facing the covering. A chamber is defined between the end of the fiber and the covering. The housing includes an inlet orifice in the chamber perpendicular to the fiber axis and an outlet for a fluid in the chamber.
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Citations
3 Claims
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1. A device for optically measuring the temperatures of cryogenic fluids by analyzing the decay in the luminescence of a doped crystal, the device comprising a light source for exciting said crystal, optical fiber means for transporting the light flux emitted by said source to the crystal and for returning to a detection assembly the luminescent light emitted by the crystal as a result, and a measurement probe past which the fluid moves, wherein the doped crystal is constituted by one of the crystals from the group consisting of strontium fluoride doped with divalent ytterbium, SrF2 :
- Yb2+ and calcium fluoride doped with divalent ytterbium, CaF2 Yb2+, wherein said measurement probe is constituted by a housing having the doped crystal at an interior end thereof in the form of a crystal covering, a capillary surrounding the optical fiber means, the optical fiber means being placed in said housing facing said covering and defining a chamber between the end of said fiber and the covering, and wherein the housing includes at least one fluid inlet orifice disposed perpendicularly to the axis of the fiber and opening out into the chamber and at least one fluid outlet orifice opposite to the fluid inlet orifice.
- View Dependent Claims (2, 3)
Specification