Title :
Performance of a continuous-wave self-adaptive gain-grating laser
Author :
Crifts, G.J. ; Trew, M. ; Damzen, M.J. ; Eason, R.W.
Author_Institution :
Blackett Lab., Imperial Coll. of Sci., Technol. & Med., London, UK
Abstract :
Summary form only given. Experimental and theoretical studies have shown that three-dimensional gain gratings, optically written in a saturable laser amplifier, can act as very efficient (>1000%) diffractive optical elements and, in a four-wave mixing (FWM) geometry, can produce extremely high phase-conjugate reflectivity. A further development in the use of gain gratings for phase conjugation has been the employment of loop schemes to obtain self-pumped phase conjugation (SPPC) with only one input beam required. In reality, these devices are actually a novel type of (holographic) laser where the feedback is provided by diffraction from an externally-written gain-grating hologram.
Keywords :
diffractive optical elements; holographic gratings; optical phase conjugation; optical pumping; optical saturation; reflectivity; semiconductor optical amplifiers; 3D gain gratings; continuous-wave self-adaptive gain-grating laser; diffractive optical elements; externally-written gain-grating hologram; extremely high phase-conjugate reflectivity; four-wave mixing geometry; holographic laser; input beam; loop schemes; optically written; phase conjugation; saturable laser amplifier; self-pumped phase conjugation; Diffraction gratings; Holographic optical components; Holography; Laser feedback; Laser theory; Nonlinear optics; Optical feedback; Optical mixing; Semiconductor optical amplifiers; Stimulated emission;
Conference_Titel :
Lasers and Electro-Optics, 1999. CLEO '99. Summaries of Papers Presented at the Conference on
Conference_Location :
Baltimore, MD, USA
Print_ISBN :
1-55752-595-1
DOI :
10.1109/CLEO.1999.834179
