System and method for high-power, pulsed ring fiber oscillator

What is claimed is: 1. A method comprising: providing a rare-earth doped first fiber gain medium; configuring a ring optical signal path that extends through the first fiber gain medium; Q-switching a ring signal laser beam in the ring optical signal path, wherein the Q-switched ring signal laser beam has a pulse repetition rate that is independent of the ring optical signal path's length during normal operation of the Q-switching, and wherein the Q-switched ring signal laser beam has a first wavelength and propagates in the ring optical signal path in a first direction, wherein the Q-switching is one of a plurality of operational modes that are electrically switchable from one to another, and wherein the plurality of operational modes includes both a continuous-wave mode and a Q-switched mode; extracting a first optical signal beam from the Q-switched ring signal laser beam in a free-space portion of the ring optical signal path; separating from the free-space portion of the ring optical signal path at least a portion of any light counter-propagating in the ring optical signal path in a second direction other than the first direction, wherein the separating from the ring optical signal path is spatially separate from the extracting of the first optical signal beam; and forcing a majority of the Q-switched ring signal laser beam to lase in the first direction around the ring optical signal path by reflecting at least a portion of any light separated from the ring optical signal path by the separating to propagate in the ring optical signal path in the first direction. 2. The method of claim 1 , further comprising: amplifying the first signal beam in a second fiber gain medium to form an amplified second output beam; wavelength converting the amplified second output beam to form a wavelength-converted output beam that has a second wavelength different from the first wavelength. 3. The method of claim 1 , wherein the extracting of the first optical signal beam from the Q-switched ring signal laser beam includes beam splitting light of a first polarization into the first optical signal beam while passing light of another polarization into a ring-feedback signal beam. 4. The method of claim 1 , further comprising wavelength filtering the Q-switched ring signal laser beam to limit a linewidth of the Q-switched ring signal laser beam. 5. The method of claim 1 , further comprising preferentially amplifying signal light having only a first linear polarization direction in the first fiber gain medium. 6. The method of claim 1 , wherein the Q-switching includes polarizing the Q-switched ring signal laser beam, rotating an angle of polarization of the polarized Q-switched ring signal laser beam, and again polarizing the polarization-rotated Q-switched ring signal laser beam. 7. The method of claim 1 , wherein the rare-earth doped first fiber gain medium is a large-mode-area (LMA) first fiber gain medium, the method further comprising providing a passive polarization-maintaining fiber, wherein the configuring of the ring optical signal path includes connecting an end of the LMA first fiber gain medium to the passive polarization-maintaining fiber. 8. An apparatus comprising: a rare-earth doped first fiber gain medium; means for configuring a ring optical signal path that extends through the first fiber gain medium; means for Q-switching a signal laser beam in the ring optical signal path, wherein the Q-switched ring signal laser beam has a pulse repetition rate that is independent of the ring optical signal path's length during normal operation of the means for Q-switching, and wherein the Q-switched ring signal laser beam has a first wavelength and propagates in the ring optical signal path in a first direction; means for extracting a first optical signal beam from the Q-switched ring signal laser beam outside of the first fiber gain medium in a free-space portion of the ring optical signal path; means for separating from the free-space portion of the ring optical signal path at least a portion of any light counter-propagating in the ring optical signal path in a second direction other than the first direction, wherein the means for separating is spatially separate from the means for extracting; and means for forcing the Q-switched ring signal laser beam to lase in a single first direction around the ring optical signal path, including means for reflecting, to propagate in the ring optical signal path in the single first direction, at least a portion of any light separated from the ring optical signal path by the means for separating, wherein the means for Q-switching is operable in one of a plurality of operational modes that are electrically switchable from one to another, and wherein the plurality of operational modes includes both a continuous-wave mode and a Q-switched mode. 9. The apparatus of claim 8 , wherein the means for extracting the first optical signal beam from the Q-switched ring signal laser beam includes means for beam splitting light of a first polarization into the first optical signal beam while passing light of another polarization into a ring-feedback signal beam. 10. The apparatus of claim 8 , further comprising means for wavelength filtering the Q-switched ring signal laser beam to limit a linewidth of the Q-switched ring signal laser beam. 11. The apparatus of claim 8 , wherein the means for configuring the ring optical signal path includes means for maintaining a polarization of the Q-switched ring signal laser beam in a portion of the ring optical signal path outside of the first fiber gain medium. 12. The apparatus of claim 8 , further comprising means for preferentially amplifying signal light having only a first linear polarization direction in the first fiber gain medium. 13. The apparatus of claim 8 , wherein the rare-earth doped first fiber gain medium is a large-mode-area (LMA) first fiber gain medium, the apparatus further comprising: a passive polarization-maintaining fiber, wherein the means for configuring the ring optical signal path includes means for connecting an end of the LMA first fiber gain medium to the passive polarization-maintaining fiber. 14. An apparatus comprising: a ring laser that has an optical signal ring path and generates a Q-switched ring signal laser beam that propagates along the optical signal ring path in the ring laser, wherein the Q-switched ring signal laser beam has a pulse repetition rate that is independent of the optical signal ring path's length during normal Q-switched mode, wherein the Q-switched ring signal laser beam has a first wavelength and propagates in the optical signal ring path in a first direction, wherein the ring laser includes a first optical fiber that forms a first portion of the optical signal ring path, and wherein the first optical fiber includes an optically-pumped rare-earth-doped gain-fiber section; first extraction optics configured to extract a first signal beam from the Q-switched ring signal laser beam in a free-space portion of the optical signal ring path; second extraction optics, separate from the first extraction optics, that separates from the optical signal ring path at least a portion of any light that counter-propagates in the free-space portion of the optical signal ring path in a second direction other than the first direction; and a first high-reflectivity mirror, wherein the first mirror is configured to reflect toward the first direction around the optical signal ring path at least a portion of any light separated from the optical signal ring path by the second extraction optics in order to control the Q-switched ring signal l