Abstract

A high gain optical amplifier and method. Generally, the inventive amplifier includes a first crystal having an axis and a first index of refraction and a second crystal bonded to the first crystal about the axis and having a second index of refraction. The first index is higher than the second index such that light through the first crystal is totally internally reflected. In the illustrative embodiment, the first crystal is Yb:YAG with an index of approximately 1.82, the second crystal is Sapphire with an index of approximately 1.78, and the axis is the propagation axis. The invention is, in its preferred embodiment, a light guide fabricated out of crystalline materials, diffusion bonded together. If the core of the light guide is doped with laser ions, high gain amplifiers made be designed and operable over a large etendue. With a judicious choice of the laser crystal and cladding materials, shape, and bonding technique, the guided amplifier is much less susceptible to parasitic oscillation than amplifiers constructed in accordance with conventional teachings. The clad core is also able to handle larger thermal load without breakage than can an unclad core.

Other References

• Griebner, U. et al.: "Laser With Guided Pump and Free-Propagating Resonator Mode Using Diffusion-Bonded Rectangular Channel Waveguides", Applied Physics Letters,
• American Institute of Physics, New York, US, vol. 77, No. 22, Nov. 27, 2000, pp. 3505-3507, XP000994237, ISSN: 0003-6951, p. 3505