Electrically controlled uniform or graded reflectivity electro-optic mirror
First Claim
1. An electrically controlled variable reflectance mirror comprising:
- a Pockels cell formed with opposing electrodes for connection to an external voltage source;
a λ
/4 plate; and
a polarizer, wherein said Pockels cell is configured to provide uniform birefringence as said external voltage source is varied.
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Accused Products
Abstract
An electrically controlled variable reflectance mirror that includes a Pockels cell which enables its retardation or birefringence to be controlled in order to vary the light outcoupled from a laser cavity. Since the retardation is a function of the voltage applied to the Pockels cell, the voltage can be used to control the fraction of the output beam that is outcoupled from the laser cavity. The Pockels cell is formed with a constant reflectivity profile to form an electrically controlled uniform reflectivity electro-optic mirror. In an alternate embodiment of the invention, the Pockels cell is configured with spatially varying retardation to form an electrically controlled graded reflectivity electro-optic mirror. Both embodiments of the invention enable a lasing system, such as a solid state lasing system, to be operated over a relatively wide range of operating parameters utilizing a single set of optics.
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Citations
18 Claims
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1. An electrically controlled variable reflectance mirror comprising:
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a Pockels cell formed with opposing electrodes for connection to an external voltage source; a λ
/4 plate; anda polarizer, wherein said Pockels cell is configured to provide uniform birefringence as said external voltage source is varied.
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2. An electrically controlled variable reflectance mirror comprising:
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a Pockels cell formed with opposing electrodes for connection to an external voltage source; a λ
/4 plate; anda polarizer, wherein said Pockels cell configured to provide graded birefringence as said external voltage source is varied.
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3. A solid state lasing system comprising:
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a first and second totally reflecting mirror, spaced apart defining a lasing cavity therebetween; a gain medium disposed in said lasing cavity and an outcoupling mirror system for outcoupling a portion of the light from said lasing cavity defining an output beam, said out coupling mirror system including at least one Pockels cell, a quarter wave plate, a polarizer, and a variable voltage source, wherein the reflectivity the outcoupling mirror system is continuously variable as a function of the voltage applied to said Pockels cell, wherein said Pockels cell is configured to provide graded birefringence as said external voltage source is varied. - View Dependent Claims (4, 5)
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6. A Pockels cell for providing a varying birefringence profile, the Pockels cell comprising:
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a crystal having opposing sides; an electrode pattern formed on said opposing sides, said Pockels cell configured to provide a birefringence profile along said opposing sides, wherein said a birefringence profile is an inverse Gaussian profile. - View Dependent Claims (7, 8, 9)
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10. A solid state laser system comprising:
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first and second totally reflecting mirrors, spaced apart defining a lasing cavity therebetween; a gain medium disposed in said lasing cavity; an outcoupling mirror system for outcoupling a portion of light from said lasing cavity defining an output beam, said outcoupling system including a quarter wave plate, a polarizer, two Pockels cells, and a variable voltage source adapted to be electrically connected to at least one of said Pockels cells, said at least one of said Pockels cells providing a continuously variable birefringence profile as a function of the voltage applied to said at least one Pockels cell. - View Dependent Claims (11)
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12. A solid state lasing system comprising:
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first and second totally reflecting mirrors, spaced apart defining a lasing cavity therebetween; a gain medium disposed in said lasing cavity; an outcoupling mirror system for outcoupling a portion of light from said lasing cavity defining an output beam, said outcoupling system including a quarter wave plate, a polarizer, two Pockels cells, and a variable voltage source adapted to be electrically connected to at least one of said Pockels cells, said at least one of said Pockels cells providing a continuously variable birefringence profile as a function of the voltage applied to said at least one Pockels cell, wherein the each of said Pockels cells are formed with a graduated birefringence profile.
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13. A solid state lasing system comprising:
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first and second totally reflecting mirrors, spaced apart defining a lasing cavity therebetween; a gain medium disposed in said lasing cavity; an outcoupling mirror system for outcoupling a portion of light from said lasing cavity defining an output beam, said outcoupling system including a quarter wave plate, a polarizer, two Pockels cells, said Pockels cells configured with graduated birefringence profiles, wherein said Pockels cells are orientated such that said birefringence profiles are not aligned. - View Dependent Claims (14)
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15. A solid state lasing system comprising:
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a totally reflecting mirror; a partially reflecting mirror spaced away from said totally reflecting mirror defining a laser cavity therebetween; a gain medium disposed in said laser cavity; an electrically controlled with a continuously variable birefringence profile spatial filter disposed within said laser cavity; and a variable voltage source, wherein the birefringence of said spatial filter is a function of the voltage applied thereto. - View Dependent Claims (16)
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17. A solid state lasing system comprising:
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a totally reflecting mirror; a partially reflecting mirror spaced away from said totally reflecting mirror defining a laser cavity therebetween; a gain medium disposed in said laser cavity; an electrically controlled with a continuously variable birefringence profile spatial filter disposed within said laser cavity; and a variable voltage source, wherein the birefringence of said spatial filter is a function of the voltage applied thereto, wherein said electrically controlled spatial filter includes a polarizer and a Pockels cell and wherein said Pockels cell is formed with a graduated birefringence profile.
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18. A solid state lasing system comprising:
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a totally reflecting mirror; a partially reflecting mirror spaced away from said totally reflecting mirror defining a laser cavity therebetween; a gain medium disposed in said laser cavity; and an electrically controlled spatial filter including a polarizer and a Pockels cell, said electrically controlled spatial filter disposed within said laser cavity, wherein said Pockels cell is formed with an inverse Gaussian profile.
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Specification