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6 September 2007 Design of an all-optical spatial light modulator and logic gates with phototropin
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Proceedings Volume 6646, Nanobiotronics; 66460D (2007) https://doi.org/10.1117/12.734022
Event: NanoScience + Engineering, 2007, San Diego, California, United States
Abstract
All-optical switching has been theoretically analyzed in LOV2 phototropin, the blue light plant photoreceptor based on nonlinear intensity-induced excited-state absorption. The transmission of a cw probe laser beam at 660 nm through LOV2 protein can be controlled by a cw or pulsed pump laser beam at 442 nm, respectively. This modulation is sensitive to the small-signal absorption coefficient, absorption cross-section of the excited L-state at pump beam wavelength and sample thickness. It is shown that the unique spectral and kinetic properties of wild-type LOV2 and LOV2-C39A mutant, result in the probe beam getting completely switched off (100% modulation), by the pump laser beam of intensity 50 kW/cm2 and 1 kW/cm2, respectively. The switching response in LOV2-WT is faster (~μs) than in LOV2-C39A mutant (~ms). The results have been used to design an optically-addressed spatial light modulator and all-optical NOT, and the universal NAND and NOR logic gates. The results show the applicability of this novel plant photoreceptor protein for photonic applications.
© (2007) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
S. Roy and K. Kulshrestha "Design of an all-optical spatial light modulator and logic gates with phototropin", Proc. SPIE 6646, Nanobiotronics, 66460D (6 September 2007); https://doi.org/10.1117/12.734022
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