Bandwidth adjustable liquid crystal terahertz wave plate based on porous graphene transparent electrode
A technology of porous graphene and terahertz wave plate, which is applied in the field of terahertz optoelectronics, can solve the problems that are difficult to achieve practicality, small adjustable amount, and no longer applicable, and achieve good electric field distribution and control, large modulation amount, and reduced small box thick effect
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Embodiment 1
[0044] This embodiment is an example of a single-box broadband tunable terahertz wave plate.
[0045] The specific structural design is attached figure 1 As shown in (a), two quartz substrates 1 are respectively provided with sub-wavelength metal wire grid 2 and few-layer porous graphene 3, and the liquid crystal material 6 of the optically controlled alignment layer 5 of the liquid crystal cell, and the liquid crystal is realized by means of optically controlled alignment. Parallel orientation, and the orientation direction of the photo-controlled alignment layer is 45° to the direction of the metal wire grid. The liquid crystal material selected in this example is liquid crystal NJU-LDn-4 with large birefringence at room temperature (see patent ZL201210378032.6). The liquid crystal cell achieves the effect of a tunable quarter-wave plate at 1THz, and the minimum required thickness of the liquid crystal cell is 250 μm.
[0046] In order to realize such a structure, the pres...
Embodiment 2
[0050] This embodiment is an example of a double-layer box ultra-broadband tunable terahertz waveplate.
[0051] The specific structural design is attached figure 1 As shown in (b), the preparation method is similar to that of Example 1, except that a quartz substrate with a few layers of porous graphene on both sides is inserted in the middle, and the selected material is still liquid crystal NJU-LDn-4, so the same cell thickness, modulation The quantity is 1 times that of a single box.
[0052] By varying the applied voltage, different phase modulations can be achieved for different frequencies. like Figure 4 As shown in a, when the voltage is 0V, 0.9THz can realize the half-wave plate function, and 1.8THz can realize the full-wave plate function, and the phase difference increases with the increase of frequency. Taking the two frequencies of 0.9THz and 1.8 THz as an example, such as Figure 4 b By controlling the applied voltage, the effect of the adjustable half-wave ...
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