Improved Raman Fiber Laser (RFL) generators may include a mid-infrared fiber, e.g., a fiber comprising a tellurite glass, a chalcogenide glass, a fluoride glass, or similar material. A phase-shifted fiber Bragg grating may be inscribed in the fiber. A pump laser generator may be coupled with the fib
Improved Raman Fiber Laser (RFL) generators may include a mid-infrared fiber, e.g., a fiber comprising a tellurite glass, a chalcogenide glass, a fluoride glass, or similar material. A phase-shifted fiber Bragg grating may be inscribed in the fiber. A pump laser generator may be coupled with the fiber in order to supply a pump laser to the fiber. When stimulated by the pump laser, the RFL generator may emit an output laser having a mid-infrared wavelength. A tuner may be used to tune the output laser.
대표청구항▼
1. An improved Raman fiber laser generator, comprising: a mid-infrared fiber comprising one or more of a tellurite glass or a chalcogenide glass;a phase-shifted fiber Bragg grating inscribed in the fiber; anda pump laser generator coupled with the fiber in order to supply a pump laser to the fiber;w
1. An improved Raman fiber laser generator, comprising: a mid-infrared fiber comprising one or more of a tellurite glass or a chalcogenide glass;a phase-shifted fiber Bragg grating inscribed in the fiber; anda pump laser generator coupled with the fiber in order to supply a pump laser to the fiber;wherein the fiber comprising the phase-shifted fiber Bragg grating, when stimulated by the pump laser, emits an output laser having a wavelength of 2.0-16.0 microns; anda tuner adapted to modify the fiber comprising the phase-shifted fiber Bragg grating in order to tune the output laser, the tuner comprising a fiber bender adapted to bend the fiber comprising the phase-shifted fiber Bragg grating into a variable radius arc shape, the fiber bender comprising a sliding arm to control the variable radius arc shape, wherein the sliding arm is controlled by both a long-travel actuator and a short travel actuator. 2. The improved Raman fiber laser generator of claim 1, wherein the phase-shifted fiber Bragg grating is a π phase-shifted fiber Bragg grating. 3. The improved Raman fiber laser generator of claim 1, wherein the tuner comprises a heating element near the fiber comprising the phase-shifted fiber Bragg grating, wherein the heating element modifies phase shift and Bragg period produced by the fiber Bragg grating through a thermo-optic effect. 4. The improved Raman fiber laser generator of claim 3, wherein the heating element comprises a wire. 5. The improved Raman fiber laser generator of claim 1, further comprising a supporting substrate positioned along the fiber comprising the phase-shifted fiber Bragg grating, the supporting substrate supporting the fiber during bending thereof. 6. The improved Raman fiber laser generator of claim 1, wherein the fiber is 10-200 centimeters long. 7. The improved Raman fiber laser generator of claim 1, wherein the fiber is 20-40 centimeters long. 8. The improved Raman fiber laser generator of claim 1, wherein the fiber is 2-10 meters long. 9. The improved Raman fiber laser generator of claim 1, wherein the fiber Bragg grating is inscribed at each end of the fiber, and wherein the fiber Bragg grating includes high reflector (HR) and output coupler (OC) grating elements. 10. The improved Raman fiber laser generator of claim 1, wherein the pump laser supplied by the pump laser generator has a pump power between 50 mW and 500 Watts. 11. The improved Raman fiber laser generator of claim 1, wherein the pump laser supplied by the pump laser generator has a pump power between 500 mW and 2 Watts. 12. The improved Raman fiber laser generator of claim 1, wherein the phase-shifted fiber Bragg grating is inscribed in the fiber using a phase mask and inscription laser beam. 13. The improved Raman fiber laser generator of claim 1, wherein the output laser has a wavelength of 2.5-5 microns. 14. The improved Raman fiber laser generator of claim 1, wherein the output laser has a wavelength of 6-10 microns. 15. The improved Raman fiber laser generator of claim 1, wherein the mid-infrared fiber has a linewidth of 100 MHz or less. 16. A method to manufacture a Raman fiber laser generator, wherein the Raman fiber laser generator generates an output laser, the method comprising: inscribing a phase-shifted fiber Bragg grating in a mid-infrared fiber wherein the inscribing comprises:positioning a phase mask along the fiber;using a precision motion control system to scan an inscription laser beam along the phase mask; andblocking the inscription laser beam and moving the fiber one laser wavelength when the inscription laser beam reaches a point near a middle of the fiber Bragg grating, in order to generate a π phase-shifted fiber Bragg grating. 17. The method to fabricate a Raman fiber laser generator of claim 16, wherein the inscription laser beam is expanded and shaped using a beam expander and a cylindrical lens.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.