Apparatus for generating a stabilized laser source
First Claim
1. Apparatus for generating a stable laser source having multiple longitudinal modes comprising:
- a laser source having emitting light at an operational wavelength, said laser source having a lasing cavity and an output facet defining an end of said source lasing cavity;
an polarizing-maintaining optical fibre having a guided mode portion which is capable of sustaining at least one mode at the operational wavelength of said laser source;
a fibre grating in the guided mode portion of said optical fibre and having a reflection bandwidth within the gain bandwidth of said laser source and forming an external optical cavity between said output facet and said fiber grating;
means for coupling the laser source emitting light into an input end of said fibre;
said output facet having a reflectivity approximately equal to or greater than that of said fibre grating;
light reflected from said fibre grating back into said lasing cavity limiting the bandwidth of lasing to a value less than or equal to said grating reflection bandwidth and inducing said laser source into coherence collapse operating in multiple longitudinal modes of said external cavity so as to broaden the bandwidth emission of said laser source output via said grating fibre with multi-modal stability.
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Accused Products
Abstract
A fibre Bragg grating is used to stabilize the intensity and frequency fluctuations of a diode laser. The diode laser is connected with an opto-mechanical apparatus to the fibre which contains the grating. A polarization maintaining fibre is used. The grating is formed in the guided-mode region of the optical fibre using photorefractive techniques. The wavelength of maximum grating reflectivity is selected to lie near the maximum of the diode laser gain bandwidth. The magnitude and bandwidth of the grating reflectivity is sufficient to stabilize the diode laser output without appreciably reducing the optical output power from the end of the fibre. The bandwidth of the optical spectrum of the diode laser is increased or decreased relative to the solitary diode laser operating characteristics depending on the distance of the grating from the diode laser.
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Citations
25 Claims
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1. Apparatus for generating a stable laser source having multiple longitudinal modes comprising:
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a laser source having emitting light at an operational wavelength, said laser source having a lasing cavity and an output facet defining an end of said source lasing cavity; an polarizing-maintaining optical fibre having a guided mode portion which is capable of sustaining at least one mode at the operational wavelength of said laser source; a fibre grating in the guided mode portion of said optical fibre and having a reflection bandwidth within the gain bandwidth of said laser source and forming an external optical cavity between said output facet and said fiber grating; means for coupling the laser source emitting light into an input end of said fibre; said output facet having a reflectivity approximately equal to or greater than that of said fibre grating; light reflected from said fibre grating back into said lasing cavity limiting the bandwidth of lasing to a value less than or equal to said grating reflection bandwidth and inducing said laser source into coherence collapse operating in multiple longitudinal modes of said external cavity so as to broaden the bandwidth emission of said laser source output via said grating fibre with multi-modal stability. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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9. The apparatus of claim 1 wherein the spacing of said grating from said fibre input end is greater than the coherence length of said light beam output.
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10. The apparatus of claim 1 wherein said fibre grating has a narrow band of wavelengths which at least partially overlaps a wavelength emission band of said laser source absent the presence of said grating;
peak reflectivity of said grating being within 10 nm of said laser source wavelength emission band.
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11. The apparatus of claim 1 wherein a reflection peak of said fibre grating reflection bandwidth is within 10 nm of an emission peak of said laser wavelength emission band in the case where said grating is not present.
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12. The apparatus of claim 1 wherein the effective reflectivity of said fibre grating is less than or equal to the effective reflectivity of said output facet.
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13. The apparatus of claim 1 wherein said grating is located a sufficient optical distance along from said output facet to ensure the maintenance of coherence collaspe of the bandwith emission of said laser source via said grating fibre.
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14. The apparatus of claim 13 wherein said distance is greater than the coherence length of said laser source.
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15. The apparatus of claim 1 wherein an output of said apparatus is employed to optically pump a fiber gain medium.
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16. The apparatus of claim 1 wherein the reflectivity of said fibre grating is greater than any extraneous optical feedback reflectivity of components located beyond said fibre grating.
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17. The apparatus of claim 1 wherein the reflection bandwith of said fibre grating is at least 0.2 nm or greater.
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18. Apparatus for generating a stable laser source comprising:
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a laser source having emitting light in substantially single spatial mode at an operational wavelength, said laser source having a lasing capacity and an output facet defining an end of said source lasing cavity for output of the emitting light; an optical fibre having a guided mode portion which is capable of sustaining at least one mode at the operational wavelength of said laser source; a fibre grating in the guided mode portion of said optical fibre and having a reflection bandwith within the gain bandwith of said laser source forming an external optical cavity between said output facet and said fiber grating; means for coupling the laser source emitting light into an input end of said fibre; said fibre grating having an effective reflectivity about 3 to 4 times less than that of said output facet with the effective reflectivity Reff of said fibre grating given by the equation,
space="preserve" listing-type="equation">R.sub.eff =η
.sup.2 R.sub.gwherein η
is the coupling efficiency of said laser source output into the optical fibre and Rg is the peak reflectivity of said fibre grating. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25)
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Specification