A noncollinear second-harmonic-generation-based 4 x 4 switchable computational array is experimentally demonstrated. Picosecond binary scalar and vector-matrix multiplication results are presented.
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Simultaneous optical parametric oscillation and intracavity second-harmonic generation based on a hexagonally poled lithium tantalate.
Opt Express
March 2009
National Laboratory of Solid State Microstructures, Nanjing University, Nanjing, 210093, People's Republic of China.
Simultaneous optical parametric oscillation and intracavity second-harmonic generation based on a hexagonally poled lithium tantalate is reported. Both the optical parametric oscillation and the cascaded noncollinear second-order harmonic generation processes reach a high efficiency. A variety of possible self-doubling optical parametric oscillation processes indicate this hexagonally poled lithium tantalate has potential applications as a compact multi-wavelength light source.
View Article and Find Full Text PDFA noncollinear second-harmonic-generation-based 4 x 4 switchable computational array is experimentally demonstrated. Picosecond binary scalar and vector-matrix multiplication results are presented.
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