A device and method for producing a three-layer plasmonic photonic crystal
A plasma and photonic crystal technology, applied in the field of plasma application technology and optics, can solve the problems of band limitation, insufficient modulation mode, limitation of application fields and application prospects, etc. Modulation of the beam for diverse effects
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Embodiment 1
[0035] Such as figure 1 As shown, the device for producing three layers of plasma photonic crystals provided by the present invention is to symmetrically arrange two airtight dielectric containers in a horizontal cylindrical vacuum reaction chamber 1, and inject water into the airtight dielectric containers to form two Water electrode6. The two water electrodes 6 are electrically connected to a plasma generating power source 7 . The water electrode 6 is made of a plexiglass tube which is sealed by quartz glass baffles 3 at both ends. The plexiglass tube is filled with water, and a copper ring 2 is set in the plexiglass tube. The two copper rings 2 are respectively electrically connected to the positive pole and the negative pole of the plasma generation power supply 7 outside the vacuum reaction chamber 1 through power lines. The thickness of the quartz glass block 3 is between 0.1 mm and 5 mm.
[0036] The space between the two water electrodes 6 is a discharge gap 10 , an...
Embodiment 2
[0040] The method for producing three layers of plasma photonic crystal provided by the present invention comprises the following steps:
[0041] a. A vacuum reaction chamber 1 is provided, an air inlet 8 and an air outlet 9 are provided on the wall of the vacuum reaction chamber 1 , and two water electrodes 6 are installed in the vacuum reaction chamber 1 . The water electrode 6 adopts a plexiglass tube sealed with quartz glass baffles 3 on both sides and filled with water, and a built-in copper ring 2 is electrically connected with the plasma generating power supply 7 .
[0042] b. Between the two water electrodes 6, three frames 4 with different thicknesses are arranged side by side as the boundary of the discharge gap, and the thickness of the frames 4 is between 1 mm and 10 mm; a dielectric plate is arranged between two adjacent frames 4 5. Two dielectric plates 5 divide the discharge gap 10 into a three-layer structure. The frame 4 and the dielectric plate 5 are respect...
Embodiment 3
[0047] Compared with Example 2, the specific experimental parameters of this embodiment are: the thickness of the quartz glass baffle 3 is 1.5 mm, the thickness of the quartz dielectric plate 5 is 1 mm, and the thicknesses of the three quadrangular glass frames 4 are respectively 2 mm, 2 mm and 1 mm from left to right. 4mm and 1mm, the vacuum reaction chamber 1 is pure air, the air pressure is 0.4 atmospheres, the frequency of the plasma generating power supply 7 is 60kHz, and the peak voltage is 5.2kV.
[0048] The pattern photo (i.e. the end view) and the side view of the three-layer plasmonic photonic crystal produced in this embodiment are respectively as follows figure 2 and image 3 shown. Depend on figure 2 It can be seen that the bright spots are arranged in a hexagonal structure, and there is a bright spot in the center of each hexagon; the dark spots are distributed around each bright spot, and the dark spots are also arranged in a hexagonal structure; the diamet...
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