Scalable diode laser source for optical pumping

What is claimed: 1. A method for modifying the output beam parameters of a plurality of laser diode array sources, comprising: utilizing a single external cavity; directing a plurality of output beams of a same wavelength from a plurality of laser diodes through a power splitting array comprising a plurality of reflective or partially reflective elements oriented at about 45° with respect to a resultant beam of the same wavelength propagating toward the external cavity; merging and superimposing the plurality of output beams from the separate laser diode array sources, wherein the number of laser diode array sources is N and the number of reflective or partially reflective elements is N−1; directing the resultant beam towards the external cavity; and dividing and distributing the resultant beam returning from the external cavity thereby serving the plurality of laser diode array sources with seed photons for laser amplification. 2. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , wherein the plurality of laser diode array sources is represented by stacks of laser diode array bars. 3. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising the step of providing correction plates custom fitted for the plurality of laser diode array sources, wherein the correction plates are fabricated to improve the similarity of the illumination patterns of the beams from the separate laser diode array sources. 4. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising the step of equalizing the optical path length between the plurality of sources and the external cavity. 5. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , wherein there is a single turning mirror. 6. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 5 , wherein a first laser diode array source has the power in its beam fully reflected toward the external cavity, and a second diode array source has ½ the power in its beam reflected towards the external cavity. 7. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 5 , wherein a third laser diode array source would have ⅓ of its beam reflected toward the external cavity, and so on. 8. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising providing cylindrical optical elements. 9. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 8 , further comprising modifying the fast-axis and slow-axis beam parameters independently using the cylindrical optical elements. 10. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 8 , wherein the cylindrical optical elements are converging elements and form independent afocal telescopes. 11. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 9 , wherein the magnification along the fast-axis is greater than the magnification along the slow axis. 12. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 9 , wherein the cylindrical optical elements of the fast axis are first diverging and then converging, thereby forming a beam expander. 13. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 12 , wherein one or more of the converging or diverging optical elements is an aplanat doublet. 14. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising the step of providing a grating at the Littrow angle for wavelength selection. 15. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising the step of providing an etalon for wavelength selection. 16. The method for modifying the output beam parameters of a plurality of laser diode array sources of claim 1 , further comprising the step of providing an aperture in the external cavity to limit the divergence of the slow axis.