Parallel photon logic and gate device based on bacterial rhodopsin molecular material
A technology of bacteriorhodopsin and gate device, which is applied in the field of materials science, information and information laser technology, can solve the problems of difficult heat dissipation, serious component interference, material performance limitation of silicon single crystal, etc., and achieve thermal and chemical stability Good, high photosensitivity, wide range of spectral use
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Embodiment 1
[0030] see figure 1 , figure 1 A structural schematic diagram of a photon logic AND gate device made of the bacteriorhodopsin material of the present invention is given. exist figure 1 Among them, the photonic logic AND gate device of the present embodiment consists of a signal light source 1, a signal beam expander mirror 2, a signal filter 3, a signal collimator mirror 4, a first half mirror 5, a first electrical addressing spatial light modulator 6. Signal imaging lens 7, second half mirror half mirror 8, bacteriorhodopsin molecular membrane device 9, first narrowband total reflection mirror 10, output imaging lens 11, second narrowband total reflection mirror 12, third narrowband total reflection mirror Mirror 13, signal imaging lens 14, second electrical addressing spatial light modulator 15, fourth narrowband total reflection mirror 16, modulation collimator mirror 17, modulation filter 18, modulation beam expander mirror 19, modulation light source 20, base plate 21 ...
Embodiment 2
[0041] Referring to Fig. 2, the symbol among Fig. 2 represents respectively: anti-reflection coating 22, glass substrate 23 (material is quartz glass or optical glass), bacteriorhodopsin molecular film 24, glass substrate 25 (material is quartz glass or optical glass), antireflection film 26, metal clamp ring 27 (material is aluminum, copper or stainless steel etc.), working substance is bacteriorhodopsin molecular film 24, is clamped between glass substrate 23 and glass substrate 25. The glass substrate plays the role of supporting and protecting the bacteriorhodopsin molecular film 24; the anti-reflection coating 22 (also known as the anti-reflection coating), and the anti-reflection coating 26 (also known as the anti-reflection coating) are used to reduce the surface reflection due to the glass substrate. resulting in a loss of output light energy.
[0042] Anti-reflection film 22 (anti-reflection light wavelength range 350nm ~ 650nm adopts vacuum evaporation method, magnes...
Embodiment 3
[0045] In Fig. 2, the included angle between the second half mirror 8 of the present embodiment and the optical axis direction emitted by the signal light source is 60°, and the included angle between the third narrow-band total reflection mirror 13 and the optical axis direction emitted by the signal light source is 120°. Other components and the coupling relationship of the components are the same as in Embodiment 1.
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