Patent ID: 6310715
Filing Date: 2001-10-30
Classification: H01S

Abstract:
An apparatus for producing a high-power amplified output from a narrow bandwidth laser, the apparatus comprising:a front-end master oscillator (FMO) (7) generating a narrow bandwidth laser beam;a first Faraday isolator through which said FMO laser beam passes, said first Faraday isolator consisting of a first polarizing beam splitter (4a), a Faraday rotator (9a), and a second polarizing beam splitter (4b);a first stack of N optically contacted birefringent crystals (11) configured to demultiplex said FMO laser beam outputting 2.sup.N laser beams;an array of 2.sup.N multimode fibers (3) with front and back fiber ends, said front fiber ends positioned so that one of the FMO demultiplexed beams enters each front fiber end, said fibers comprised of three sections, a short front end section of passive fiber, a middle section of Yb-doped core acting as a fiber amplifier of said demultiplexed FMO laser beams and the returning Stokes radiation reflected back through said fiber amplifiers by SBS, and a passive fiber section of sufficient length to cause SBS generation of Stokes radiation traveling back through said first crystal stack to thereby be multiplexed into a single amplified beam, said outgoing Stokes radiation being the phase conjugate of the incoming FMO beams;a diode laser array (13) to pump the fiber amplifiers;a back-end laser master oscillator (BMO) generating radiation to seed the SBS generation and thereby phase-lock the 2.sup.N fiber amplifiers and the amplified Stokes radiation;a second Faraday isolator through which said BMO beam passes, said second Faraday isolator consisting of a third polarizing beam splitter (4c), a second Faraday rotator (9b), and a fourth polarizing beam splitter (4d), said third and fourth polarizing beam splitters serving to deflect the unreflected portion of the FMO beams (16) passing through said multimode fibers (3);a second stack of N optically contacted birefringent crystals (12) configured to demultiplex said BMO laser beam outputting 2.sup.N BMO laser beams aligned such that one of the BMO demultiplexed beams enters each back fiber end;a fiber stretcher (6) for each of said 2.sup.N multimode fibers (3) located near the back end of said fibers;a beam splitter (10) to direct a portion of said Stokes radiation into a CCD detector (1) in the image plane of the front fiber ends;a first feedback loop (2) detecting the emission of undesired beams of Stokes radiation emanating from said first crystal stack and minimizing said undesired beams by controlling fiber stretchers (6) positioned at the back end of said multimode fibers (3);a second detector (14) to measure the power output of said Stokes radiation;a second phase constraint feedback loop (20) to minimize the power measured by said second detector (14); anda near diffraction-limited polarized beam of Stokes radiation (15) deflected by said first polarizing beam splitter (4a).