Abstract
The ultrafast response of a high-reflectivity GaAsAlAs Bragg mirror to optical pumping is investigated for all-optical switching applications. Both Kerr and free carrier nonlinearities are induced with 100 fs, 780 nm pulses with a fluence of 0.64 and 0.8 kJm2. The absolute transmission of the mirror at 931 nm increases by a factor of 27 from 0.0024% to 0.065% on a picosecond time scale. These results demonstrate the potential for a high-reflectivity ultrafast switchable mirror for quantum optics and optical communication applications. A design is proposed for a structure to be pumped below the band gaps of the semiconductor mirror materials. Theoretical calculations on this structure show switching ratios up to 2200 corresponding to switching from 0.017% to 37.4% transmission. © 2005 American Institute of Physics.
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CITATION STYLE
Hastings, S. R., De Dood, M. J. A., Kim, H., Marshall, W., Eisenberg, H. S., & Bouwmeester, D. (2005). Ultrafast optical response of a high-reflectivity GaAsAlAs Bragg mirror. Applied Physics Letters, 86(3), 1–3. https://doi.org/10.1063/1.1854200
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