Hydrothermal growth of heterogeneous single crystals exhibiting amplified spontaneous emission suppression

What is claimed is: 1. A monolithic heterogeneous single crystal comprising a lasing region and an amplified spontaneous emission (ASE) suppression region, the lasing region and the ASE suppression region including the same host material, the lasing region including an active lasing ion dopant at a constant concentration throughout the lasing region, and the ASE suppression region including an ASE suppression ion dopant at a constant concentration throughout the ASE suppression region, the lasing region having a laser path, wherein the ASE suppression region is a cladding that is external to the lasing region and the lasing path does not intersect the ASE suppression region. 2. The monolithic heterogeneous single crystal of claim 1 , wherein the host material is a garnet, a vanadate, a rare earth sesquioxide, a spinel, or a borate. 3. The monolithic heterogeneous single crystal of claim 1 , wherein the active lasing ion dopant is Nd 3+ or Yb 3+ . 4. The monolithic heterogeneous single crystal of claim 1 , further comprising a second dopant in the lasing region and/or in the ASE suppression region. 5. The monolithic heterogeneous single crystal of claim 1 , wherein the ASE suppression ion dopant is an absorber ion for the active lasing ion. 6. The monolithic heterogeneous single crystal of claim 5 , wherein the ASE suppression ion dopant is Sm 3+ , Co 3+ , Cr 4+ , Dy 3+ or Cu 2+ . 7. The monolithic heterogeneous single crystal of claim 1 , wherein the ASE suppression ion dopant is the same ion as the active lasing ion dopant, the ASE suppression region including the ASE suppression ion dopant in a concentration that is higher than the concentration of the active lasing ion dopant in the lasing region. 8. The monolithic heterogeneous single crystal of claim 1 , further comprising one or more additional regions, each of which including the host material. 9. The monolithic heterogeneous single crystal of claim 8 , wherein the one or more additional regions include a Q-switch region. 10. The monolithic heterogeneous single crystal of claim 8 , wherein the one or more additional regions include a region comprising the host material with no dopants. 11. The monolithic heterogeneous single crystal of claim 8 , wherein an additional region is immediately adjacent to a first portion of the lasing region and the ASE suppression region is immediately adjacent to a second portion of the lasing region. 12. The monolithic heterogeneous single crystal of claim 1 , wherein the monolithic heterogeneous single crystal is in the shape of a plate, a rod, or a thin disk. 13. The monolithic heterogeneous single crystal of claim 1 , wherein the lasing region and the ASE suppression region have the same Miller index value. 14. The monolithic heterogeneous single crystal of claim 8 , the one or more additional regions comprising undoped end caps. 15. A device incorporating the monolithic heterogeneous single crystal of claim 1 . 16. The device of claim 15 , wherein the device is a Q-switched pulsed laser, a diode pumped microlaser, or a laser amplifier.