Rare-earth doped lithium niobate DBR laser
First Claim
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1. A laser, comprising:
- a substrate doped with a lasing material, the doped substrate having first and second ends and including a wavelength for passing a pumping light and a stimulated emission signal between the ends, and a feedback element at said first end for reflecting at least a portion of the emission signal toward the second end; and
a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is an optical fibre modified to provide a grating reflector for the emission signal and reflects at least a portion of the emission signal toward the first end of the doped substrate and in that the reflectivities of said feedback element and of said grating reflector for said emission signal are selected to provide emission signal amplification by lasing when pumping light is supplied to said waveguide.
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Abstract
A rare-earth doped, lithium niobate, diffusion Bragg reflector laser having a simplified structure and improved efficiency is disclosed. The laser has a pump source, a wavelength division multiplexer, a substrate of lithium niobate doped with at least one rare earth element and having a feedback element, and a grating reflector. The grating reflector is formed from portions of an optical fibre and abuts one end of the doped substrate, such that the grating reflector and the feedback element of the doped substrate form a cavity for the laser. The doped substrate may include phase or amplitude modulators for FM or AM mode-locking operation.
40 Citations
35 Claims
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1. A laser, comprising:
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a substrate doped with a lasing material, the doped substrate having first and second ends and including a wavelength for passing a pumping light and a stimulated emission signal between the ends, and a feedback element at said first end for reflecting at least a portion of the emission signal toward the second end; and a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is an optical fibre modified to provide a grating reflector for the emission signal and reflects at least a portion of the emission signal toward the first end of the doped substrate and in that the reflectivities of said feedback element and of said grating reflector for said emission signal are selected to provide emission signal amplification by lasing when pumping light is supplied to said waveguide. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 14, 16, 18, 19, 20, 21)
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11. A laser, comprising:
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a substrate doped with a lasing material, the doped substrate having first and second ends and including a waveguide for passing a pumping light and a stimulated emission signal between the ends, the first end including a feedback element for reflecting at least a portion of the emission signal toward the second end; and a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is formed from an optical fibre portion and reflects at least a portion of the emission signal toward the first end of the doped substrate and in that at least the doped substrate and the grating reflector are housed in a thermally stable package.
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12. A laser, comprising:
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a substrate doped with a lasing material, the doped substrate having first and second ends and including a waveguide for passing a pumping light and a stimulated emission signal between the ends, the first end including a feedback element for reflecting at least a portion of the emission signal toward the second end; and a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is formed from an optical fibre portion and reflects at least a portion of the emission signal toward the first end of the doped substrate and that the optical coupling between the grating reflector and the second end of the doped substrate causes a loss to pumping light of less than 1 dB.
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13. A laser, comprising:
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a substrate doped with a lasing material, the doped substrate having first and second ends and including a waveguide for passing a pumping light and a stimulated emission signal between the ends, the first end including a feedback element for reflecting at least a portion of the emission signal toward the second end; and a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is formed from an optical fibre portion and reflects at least a portion of the emission signal toward the first end of the doped substrate and in that said feedback element comprises a plurality of layers of dielectric material deposited on the first end of said doped substrate.
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15. A laser, comprising:
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a substrate doped with a lasing material, the doped substrate having first and second ends and including a waveguide for passing a pumping light and a stimulated emission signal between the ends, the first end including a feedback element for reflecting at least a portion of the emission signal toward the second end; and a grating reflector having an input optically coupled with the waveguide at the second end of the doped substrate and an output, the grating reflector and the feedback element defining a laser cavity including the doped substrate, characterized in that the grating reflector is formed from an optical fibre portion and reflects at least a portion of the emission signal toward the first end of the doped substrate and in that the second end of the doped substrate is polished at an angle less than 90°
to the direction between the first end and the second end. - View Dependent Claims (17)
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22. A laser, comprising:
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a pump source for generating a pumping light; a substrate of lithium niobate doped with at least one rare earth element, the doped substrate including a waveguide for passing the pumping light and a stimulated emission signal through the doped substrate; first means, contacting the waveguide, for reflecting a first group of selected wavelengths passing from the waveguide back through the waveguide, the first group including at least the emission signal; second means, contacting the waveguide, for reflecting a second group of selected wavelengths passing from the waveguide back through the waveguide, the doped substrate being positioned between the first and second reflecting means, the second group including at least the pumping signal; and a grating reflector having an input coupled to the second reflecting means and an output, the grating reflector being formed from portions of an optical fibre and reflecting at least the emission signal passing from the second reflecting means back toward the waveguide, the grating reflector and the first reflecting means defining a cavity for the laser. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31)
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32. A laser, comprising:
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a pump source for generating a pumping light; a substrate of lithium niobate doped with at least one rare earth element, the doped substrate including a waveguide for passing the pumping light and a stimulated emission signal through the doped substrate; a first wavelength-selective reflector contacting the waveguide for reflecting a first group of selected wavelengths passing from the waveguide back through the waveguide, the first group including at least the emission signal; a second wavelength-selective reflector contacting the waveguide for reflecting a second group of selected wavelengths passing from the waveguide back through the waveguide, the doped substrate being positioned between the first and second wavelength-selective reflectors, the second group including at least the pumping signal; a first grating reflector having an input coupled to the second wavelength-selective reflector and an output; and a second grating reflector having an input coupled to the output of the first grating reflector, the first and second grating reflectors being formed from portions of optical fibres, one of the first and second grating reflectors reflecting the emission signal passing from the second wavelength-selective reflector back toward the waveguide, another of the first and second grating reflectors reflecting the pumping signal passing from the second wavelength-selective reflector back toward the waveguide, the first wavelength-selective reflector and said one of the first and second grating reflectors defining a cavity for the laser. - View Dependent Claims (33, 34, 35)
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Specification