Laser system and method using a nonlinear crystal resonator
First Claim
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1. A laser system comprising:
- a diode laser having an output facet with a reflectivity of 5% or less for generating a fundamental frequency light;
a nonlinear crystal in optical communication with the laser for converting fundamental frequency light from the laser to a second harmonic light;
an optical resonator in which the crystal is located for increasing the power of said second harmonic light; and
a feedback means in optical communication with the resonator, crystal, and the laser for receiving said fundamental frequency light from the resonator and transmitting said fundamental frequency light to the laser.
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Abstract
A laser diode with a low reflectivity output facet provides infrared light to a nonlinear crystal resonator such that a portion of the infrared light is converted to blue light. A mirror is located on the opposite side of the nonlinear crystal resonator from the laser. The mirror allows the blue light to pass, but reflects the infrared light exiting the resonator back through the resonator and into the laser diode. The laser diode is thereby locked at the resonance frequency of the nonlinear crystal resonator.
63 Citations
21 Claims
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1. A laser system comprising:
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a diode laser having an output facet with a reflectivity of 5% or less for generating a fundamental frequency light; a nonlinear crystal in optical communication with the laser for converting fundamental frequency light from the laser to a second harmonic light; an optical resonator in which the crystal is located for increasing the power of said second harmonic light; and a feedback means in optical communication with the resonator, crystal, and the laser for receiving said fundamental frequency light from the resonator and transmitting said fundamental frequency light to the laser. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for generating second harmonic light comprising the steps of:
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generating a fundamental frequency light from a laser having an output facet with a reflectivity of 5% or less; repeatedly passing said fundamental frequency light through a nonlinear crystal to create a second harmonic light; separating said second harmonic light from said fundamental frequency light; and passing said fundamental frequency light back through said nonlinear crystal to said laser to lock said laser at said fundamental frequency.
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8. A laser system comprising;
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a laser having an output facet with a reflectivity of 5% or less for outputting a beam of fundamental frequency light along an output line; a nonlinear crystal located along said output line for converting said fundamental frequency light to a second harmonic frequency light; a resonator located along said output line comprising a first mirror located proximate a first side of the crystal and a second mirror located proximate a second side of the crystal; and a feedback mirror located along said output line on the opposite side of the resonator from the laser, the feedback mirror for reflecting said fundamental frequency light into the laser along the output line and for allowing said second harmonic light to pass through the feedback mirror. - View Dependent Claims (9)
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10. A laser system comprising:
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a laser having an output facet with a reflectivity of 5% or less for outputting a beam of fundamental frequency light along an output line; a nonlinear crystal located along said output line for converting said fundamental frequency light to a second harmonic frequency light; a resonator comprising a first mirror located along said output line proximate a first side of the crystal, a second mirror located on said output line proximate a second side of the crystal, and a third mirror located proximate a third side of the crystal; and a feedback mirror located along said output line on the opposite side of the resonator from the laser, the feedback mirror for reflecting said fundamental frequency light back into the laser along the output line and for allowing said second harmonic frequency light to pass through the feedback mirror. - View Dependent Claims (11)
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12. A laser system comprising:
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a laser having an output facet with a reflectivity of 5% or less for outputting a beam of fundamental frequency light along an output line; a resonator comprising a first mirror, a second mirror and a third mirror, said first and second mirror located along said output line; a nonlinear crystal located along said output line between said first and second mirror, for converting said fundamental frequency light to a second harmonic frequency light; and a feedback mirror located along said output line on the opposite side of the resonator from the laser, the feedback mirror for reflecting said fundamental frequency light back into the laser along the output line and for allowing said second harmonic frequency light to pass through the feedback mirror. - View Dependent Claims (13)
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14. A laser system comprising:
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a laser having an output facet having a reflectivity of 5% or less for outputting a beam of fundamental frequency light along an output line; a nonlinear crystal located along said output line for converting said fundamental frequency light to a second harmonic frequency light; a beam splitter located along said output line between the nonlinear crystal and the laser; a first mirror located along a line which is perpendicular to said output line, said line intersecting said output line at the beam splitter; and a feedback mirror located along said output line on the opposite side of the nonlinear crystal from the beam splitter, such that the beam splitter, the first mirror and the feedback mirror form a resonator, the feedback mirror for reflecting said fundamental frequency light back into the laser along the output line and for allowing said second harmonic light to pas through the feedback mirror. - View Dependent Claims (15)
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16. A laser data system comprising:
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a laser having an output facet having a reflectivity of 5% or less for generating a fundamental frequency light; a nonlinear crystal in optical communication with the laser for converting light from the laser to a second harmonic light; an optical resonator in which the crystal is located for increasing the power of said second harmonic light; a feedback means in optical communication with the resonator, crystal, and the laser for receiving said fundamental frequency light from the resonator and transmitting said fundamental frequency light to the laser; an optical recording medium; an optical transmission means for directing said second harmonic light from the optical resonator to the optical recording medium; and optical reception means for receiving a reflected second harmonic light beam from the optical recording medium and providing a data signal responsive thereto. - View Dependent Claims (17, 18, 19, 20, 21)
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Specification