Compact fiber short pulse laser sources

What is claimed is: 1. A passively mode locked fiber oscillator comprising: a Fabry-Perot cavity comprising: a nonlinear fiber amplifying loop mirror (NALM) at a first cavity end, said nonlinear loop mirror configured to allow the insertion of a linear phase delay along two propagation directions of said nonlinear loop mirror, wherein said passively mode locked fiber oscillator comprises polarization maintaining (PM) fiber, and wherein mode locking of said fiber oscillator evolves via suppression of Q-switching. 2. The passively mode locked fiber oscillator according to claim 1 , wherein said loop mirror comprises: an orthogonal splice configured to induce said phase delay, and a temperature control device configured to control the temperature of a section of intra-loop fiber. 3. The passively mode locked fiber oscillator according to claim 2 , further comprising: a mirror, a saturable absorber, or a combination of a mirror with a saturable absorber at a second cavity end; and a Faraday rotator inserted proximate to said second cavity end to compensate for a polarization rotation induced by said orthogonal splice. 4. The passively mode locked fiber oscillator according to claim 1 , said linear phase delay being stabilized using feedback from the output power of the oscillator. 5. The passively mode locked fiber oscillator according to claim 1 , said linear phase delay being used to control a carrier envelope offset frequency of said oscillator. 6. The passively mode locked fiber oscillator according to claim 1 , said linear phase delay being induced using a non-reciprocal phase shifter. 7. The passively mode locked fiber oscillator according to claim 1 , said fiber oscillator further comprising: a bulk diffraction grating disposed in said cavity for dispersion control of said passively mode locked fiber oscillator. 8. The passively mode locked fiber oscillator according to claim 1 , said fiber oscillator further comprising: undoped positive dispersion fiber disposed in said cavity for dispersion control of said polarization maintaining passively mode locked fiber oscillator. 9. The passively mode locked fiber oscillator according to claim 1 , said oscillator further comprising: undoped negative dispersion photonic crystal fiber disposed in said cavity for dispersion control of said passively mode locked fiber oscillator. 10. The passively mode locked fiber oscillator according to claim 1 , further comprising: a narrow bandpass optical filter, wherein said oscillator generates a pulse bandwidth larger than the bandwidth of said optical filter. 11. The passively mode locked fiber oscillator according to claim 1 , further comprising: a mirror at a second cavity end, said mirror configured to allow modulation or scanning of the repetition rate of said oscillator in response to a control signal, wherein said mode locked fiber oscillator is configured in a coherent dual scanning laser (CDSL) or coherent scanning laser (CSL) configuration. 12. The passively mode locked fiber oscillator according to claim 1 , further comprising: a mirror at a second cavity end, said mirror configured to allow modulation or scanning of the repetition rate of said oscillator in response to a control signal, wherein said mode locked fiber oscillator is configured in a trace gas detection system which includes an enhancement cavity. 13. The passively mode locked fiber oscillator according to claim 1 , wherein said passively mode locked fiber oscillator is arranged in an all-PM configuration. 14. The passively mode locked fiber oscillator according to claim 1 , wherein said Fabry-Perot cavity comprises a reflective optic at a second cavity end. 15. The passively mode locked fiber oscillator according to claim 14 , wherein the reflective optic comprises a mirror, a saturable absorber, or a combination of a mirror with a saturable absorber. 16. The passively mode locked fiber oscillator according to claim 1 , wherein the cavity further comprises an electro-optic modulator. 17. The passively mode locked fiber oscillator according to claim 1 , wherein the cavity further comprises a loss modulator. 18. The passively mode locked fiber oscillator according to claim 17 , wherein the loss modulator comprises a graphene modulator. 19. The passively mode locked fiber oscillator according to claim 1 , wherein said NALM is configured as an optical limiting element. 20. The passively mode locked fiber oscillator according to claim 19 , wherein said NALM optical limiting element is further configured to produce a fiber oscillator output with a root mean square intensity noise (RIN) less than −140 dBc/Hz at least at one frequency in a range from 100 kHz to 1 MHz. 21. The passively mode locked fiber oscillator according to claim 1 , configured as a frequency comb. 22. A passively mode locked fiber oscillator comprising: a laser cavity comprising: a nonlinear fiber amplifying loop mirror, said nonlinear loop mirror configured to allow the insertion of a linear phase delay along two propagation directions of said nonlinear loop mirror, wherein said cavity is configured without any saturable absorber and is configured with polarization maintaining (PM) components in an all-PM or nearly all-PM configuration, wherein mode locking of said fiber oscillator evolves via suppression of Q-switching. 23. The passively mode locked fiber oscillator according to claim 22 , wherein said loop mirror comprises: an orthogonal splice configured to induce said linear phase delay, and a temperature control device configured to control temperature of a section of intra-loop fiber. 24. The passively mode locked fiber oscillator according to claim 22 , said linear phase delay being induced using a non-reciprocal phase shifter. 25. The passively mode locked fiber oscillator according to claim 22 , wherein the cavity further comprises an electro-optic modulator. 26. The passively mode locked fiber oscillator according to claim 25 , wherein said electro-optic modulator is configured to initiate modelocking of said mode locked fiber oscillator. 27. The passively mode locked fiber oscillator according to claim 22 , wherein the cavity further comprises a loss modulator. 28. The passively mode locked fiber oscillator according to claim 27 , wherein the loss modulator comprises a graphene modulator.