Fiber tip monitoring and protection assembly
First Claim
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1. In a control system for use with a laser generated radiation system utilizing, in combination, a laser generator, a lens means, and an optical fiber for transmission of radiation in the form of laser energy from the generator to the lens, the lens means comprising a laser energy transmitting lens body with a pair of opposed surfaces, one of said surfaces being arranged for reception of an incoming beam of radiation from the distal tip end of an adjacent optical fiber and thence through said lens body;
- said control system comprising;
(a) a laser generator for creating and discharging an output of laser energy as a beam of such energy and being within a certain first predetermined output power level and having a certain first predetermined wavelength;
(b) a lens body transmissive to incident laser beam radiation within said first predetermined output power level and having a surface arranged for reception of an incoming beam of radiation at one end thereof and having an opposed surface arranged discharge of said beam therefrom;
(c) an optical transmitting fiber arranged to receive radiation at the proximal end thereof from said laser generator and to transmit such radiation along the length thereof, said optical fiber having a distal tip end disposed adjacent a surface of said lens body;
(d) said lens means emitting fluorescent radiation within a certain second predetermined wavelength upon excitation through exposure to said laser beam, said second predetermined wavelength being significantly different from said first predetermined wavelength; and
(e) sensing means for detecting the radiation emitted from said lens body.
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Abstract
A control system for an optical fiber laser power delivery system wherein the system employs a tip assembly for the optical fibers which provide focusing and beam divergence, mechanical protection for the optical fibers, and in addition functions as the source of a condition responsive signal useful in monitoring and controlling the system operation. The tip assembly utilizes a synthetic sapphire lens or window having incident laser radiation and temperature dependent fluorescing property useful in generating a signal utilized in a feedback control system for the laser system. The improved tip assembly accordingly has application as an optical fiber shield as well as a signal source for the control and monitor portion of the laser system.
169 Citations
14 Claims
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1. In a control system for use with a laser generated radiation system utilizing, in combination, a laser generator, a lens means, and an optical fiber for transmission of radiation in the form of laser energy from the generator to the lens, the lens means comprising a laser energy transmitting lens body with a pair of opposed surfaces, one of said surfaces being arranged for reception of an incoming beam of radiation from the distal tip end of an adjacent optical fiber and thence through said lens body;
- said control system comprising;
(a) a laser generator for creating and discharging an output of laser energy as a beam of such energy and being within a certain first predetermined output power level and having a certain first predetermined wavelength; (b) a lens body transmissive to incident laser beam radiation within said first predetermined output power level and having a surface arranged for reception of an incoming beam of radiation at one end thereof and having an opposed surface arranged discharge of said beam therefrom; (c) an optical transmitting fiber arranged to receive radiation at the proximal end thereof from said laser generator and to transmit such radiation along the length thereof, said optical fiber having a distal tip end disposed adjacent a surface of said lens body; (d) said lens means emitting fluorescent radiation within a certain second predetermined wavelength upon excitation through exposure to said laser beam, said second predetermined wavelength being significantly different from said first predetermined wavelength; and (e) sensing means for detecting the radiation emitted from said lens body. - View Dependent Claims (2, 3, 4, 5, 6, 7, 14)
- said control system comprising;
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8. In a control system for use with a laser generated radiation system utilizing, in combination, a laser generator, a lens assembly including a lens means, and an optical fiber for transmission of radiation from the generator to the lens means, the lens means comprising a lens body with a pair of opposed surfaces, one of said surfaces being arranged for the reception of an incoming beam of laser radiation from the tip end of an adjacent optical fiber and thence through said lens body;
- said control system comprising;
(a) a laser generator for creating a beam of laser radiation within a certain first predetermined output power level and at a certain first predetermined wavelength; (b) a lens body within said lens assembly and consisting essentially of synthetic sapphire and transmissive to incident radiation within said first predetermined output power level and being arranged to receive laser beam radiation at one end thereof and to discharge said laser beam energy at the opposed end thereof; (c) an optical transmitting fiber arranged to receive laser generated radiation at the proximal end thereof and to transmit such radiation along the length thereof, said optical fiber having a distal tip end disposed adjacent the radiation receiving surface of said lens body; (d) a lens body retention sleeve within said lens assembly for receiving and retaining said optically transmitting fiber adjacent the distal tip end thereof and for maintaining said fiber distal tip end in a predetermined position relative to the radiation receiving surface of said lens body; (e) said lens body being adapted to emit fluorescent radiation within a certain predetermined wavelength upon exposure to radiation from said laser generator having an output power level within said first predetermined power level and with the strength of said emitted radiation being indicative of the intensity condition of incident laser beam energy and of the temperature of said lens body, and with said emitted radiation having a wavelength which is significantly different from said first predetermined wavelength; and (f) sensing means operatively associated with said optical transmitting fiber for detecting the radiation emitted from said lens body. - View Dependent Claims (9, 10, 11)
- said control system comprising;
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12. In a control system for use with a laser generator, a radiant energy discharge assembly remote from said laser generator, and an optical fiber disposed mutually adjacent said laser generator and said energy discharge assembly for transmission of radiation from the laser generator to the radiant energy discharge assembly, the radiant energy discharge assembly comprising a radiant energy transmissive window with a pair of opposed surfaces, one of said window surfaces being arranged for the reception of an incoming beam of laser radiation from the tip end of said adjacent optical fiber and thence through said radiant energy transmissive window;
- said control system comprising;
(a) a laser generator for creating a beam of laser radiation within a certain first predetermined output power level and at a certain first predetermined wavelength; (b) a radiant energy transmissive window consisting essentially of a body transmissive to incident radiation within said first predetermined output power level and being arranged to transmit laser beam radiation across the thickness thereof; (c) an optical transmitting fiber arranged to receive laser generated radiation from said laser generator at the proximal end thereof and to transmit such radiation along the fiber length for delivery into said radiant energy transmissive window, said optical transmitting fiber having a distal tip end disposed adjacent one surface of said radiant energy transmissive window; (d) a radiant energy transmissive window retention sleeve within said radiant energy discharge assembly for receiving and retaining said optically transmitting fiber adjacent the fiber distal tip and for maintaining said fiber distal tip end in a predetermined position relative to the surface of said radiant energy transmissive window; (e) said radiant energy transmissive window being adapted to emit fluorescent radiation within a certain second predetermined wavelength upon exposure to radiation from said laser generator and with the strength of said emitted fluorescent radiation being at least in part indicative of the intensity level of incident laser beam energy, and with said second predetermined wavelength being significantly different from said first predetermined wavelength; and (f) sensing means operatively associated with said optical transmitting fiber for detecting the radiation emitted from said radiant energy discharge assembly. - View Dependent Claims (13)
- said control system comprising;
Specification
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Current AssigneeGV Medical, Inc. (SpectraScience, Inc.)
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Original AssigneeGV Medical, Inc. (SpectraScience, Inc.)
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InventorsKosa, Nadhir B.
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Primary Examiner(s)Albritton, C. L.
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Application NumberUS06/808,737Time in Patent Office648 DaysField of Search219/121 LA, 219/121 L, 219/121 LM, 219/121 LZ, 219/121 LQ, 219/121 LR, 219/121 LB, 350/96.26, 350/96.25US Class Current219/121.83CPC Class CodesA61B 18/20 using laserA61B 18/245 for removing obstructions i...A61B 2018/00636 Sensing and controlling the...A61B 2018/204 Attenuators
