Compact mode-locked laser module

The invention claimed is: 1. A mode-locked laser module comprising: a base chassis; an output coupler and a first focusing optic mounted on the base chassis; a saturable absorber mirror and second focusing optic mounted on the base chassis, wherein the output coupler and saturable absorber mirror comprise end mirrors of a laser cavity of the mode-locked laser module; a gain medium located along an optical axis of an intracavity beam within the laser cavity; and a cavity length extending region comprising two reflectors located between the output coupler and the saturable absorber mirror, wherein the two reflectors fold the intracavity beam more than two times. 2. The mode-locked laser module of claim 1 , further comprising a laser diode arranged to excite the gain medium with a pump beam, wherein absorption of the pump beam in the gain medium causes thermal lensing in the gain medium to a value between one diopter and 15 diopters when the mode-locked laser is producing optical pulses. 3. The mode-locked laser module of claim 2 , wherein the mode-locked laser produces optical pulses stably without mechanical adjustments to the laser cavity for thermal lensing values varied over a range from 8 diopters to 12 diopters due to changes in optical power of the pump beam. 4. The mode-locked laser module of claim 3 , wherein the changes in the optical power of the pump beam are between 2 Watts and 10 Watts and an average output optical power from the mode-locked laser module is between 350 milliwatts and 3.5 watts. 5. The mode-locked laser module of claim 1 , wherein the gain medium comprises a solid state crystal that is disposed in a mount and has no active cooling. 6. The mode-locked laser module of claim 1 , wherein the gain medium comprises neodymium vanadate (Nd 3+ :YVO 4 ). 7. The mode-locked laser module of claim 1 , wherein a pulse repetition rate of optical pulses produced by the mode-locked laser module is between 50 MHz and 200 MHz and a maximum edge length of the base chassis is not more than 350 mm. 8. The mode-locked laser module of claim 1 , wherein a pulse repetition rate of optical pulses produced by the mode-locked laser module is between 50 MHz and 200 MHz and wherein the mode-locked laser module has a slab form with a maximum edge length measuring not more than 350 mm and a thickness measuring not more than 40 mm and a weight of the mode-locked laser module is no more than 2 kilograms. 9. The mode-locked laser module of claim 1 , wherein a pulse repetition rate of optical pulses produced by the mode-locked laser module is between 50 MHz and 200 Mhz and wherein a maximum volume occupied by the mode-locked laser module is not more than 0.1 cubic feet. 10. The mode-locked laser module of claim 1 , further comprising a diagonal rib extending diagonally across the base chassis that increases torsional stiffness of the base chassis, wherein the intracavity beam passes through multiple openings in the diagonal rib. 11. The mode-locked laser module of claim 1 , wherein the saturable absorber mirror is mounted on a plate that is configured to be adjusted with only two degrees of freedom which do not include angle adjustments with respect to the optical axis of the intracavity beam that is incident on the saturable absorber mirror. 12. The mode-locked laser module of claim 11 , wherein the plate comprises a printed circuit board having a metal coating or the plate comprises a plate of metal. 13. The mode-locked laser module of claim 1 , wherein a first beam waist of the intracavity beam within the gain medium is between 100 microns and 150 microns and a second beam waist of the intracavity beam at the saturable absorber is between 75 microns and 125 microns. 14. The mode-locked laser module of claim 1 , wherein the first focusing optic is located within the laser cavity between the gain medium and the saturable absorber mirror and the second focusing optic is located within the laser cavity between the first focusing optic and the saturable absorber mirror, and wherein the intracavity beam between the first focusing optic and the second focusing optic is essentially collimated. 15. The mode-locked laser module of claim 14 , wherein a focal length of the first focusing optic is between 240 mm and 260 mm and a focal length of the second focusing optic is between 240 mm and 260 mm. 16. The mode-locked laser module of claim 14 , wherein the output coupler is located between 280 mm and 300 mm from the first focusing optic and the gain medium is located between 4 mm and 8 mm from the output coupler. 17. The mode-locked laser module of claim 14 , further comprising a frequency-doubling crystal mounted on the base chassis and arranged to double a frequency of an output beam from the laser cavity. 18. The mode-locked laser module of claim 1 , further comprising a laser window or optical flat located within the laser cavity, wherein the second focusing optic and laser window or optical flat are arranged to adjust an incident angle of the intracavity beam on the saturable absorber mirror by rotating the laser window or optical flat. 19. The mode-locked laser module of claim 1 , wherein one of the two reflectors folds the intracavity beam three times. 20. A mode-locked laser module comprising: a base chassis; a mode-locked laser having a first laser cavity configured to operate at a pulse repetition rate between 50 MHz and 200 MHz, wherein the mode-locked laser is assembled on the base chassis; a first end mirror of the first laser cavity located at a first end of the first laser cavity; a second end mirror of the first laser cavity located at a second end of the first laser cavity; and a gain medium located within the first laser cavity, wherein the gain medium is configured to exhibit thermal lensing when pumped at an operating power for the first laser cavity, wherein the thermal lensing supports lasing in a second laser cavity formed within the first laser cavity that is less than one-half the length of the first laser cavity and that includes the first end mirror and a third end mirror that is installed on the base chassis in the first laser cavity. 21. The mode-locked laser module of claim 20 , wherein the first end mirror, third end mirror, and thermally lensing gain medium form a stable lasing cavity with no additional lensing element. 22. The mode-locked laser module of claim 20 , wherein the gain medium comprises a solid state crystal that is disposed in a mount and has no active cooling. 23. The mode-locked laser module of claim 20 , wherein the gain medium comprises neodymium vanadate (Nd 3+ :YVO 4 ). 24. The mode-locked laser module of claim 20 , wherein a maximum edge length of the base chassis is not more than 350 mm. 25. The mode-locked laser module of claim 20 , wherein the mode-locked laser module has a slab form with a maximum edge length measuring not more than 350 mm and a thickness measuring not more than 40 mm and a weight of the mode-locked laser module is no more than 2 kilograms. 26. The mode-locked laser module of claim 20 , wherein a maximum volume occupied by the mode-locked laser module is not more than 0.1 cubic feet. 27. The mode-locked laser module of claim 20 , further comprising a diagonal rib extending diagonally across the base chassis that increases torsional stiffness of the base chassis, wherein an intracavity beam of the first laser cavity passes t