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A Broadband Tunable Terahertz Waveplate

A terahertz wave plate and broadband technology, applied in the field of terahertz optoelectronics, can solve the problems of small adjustable amount, difficult to achieve practicality, increase the difficulty and cost of device manufacturing, and achieve stable device performance, good electric field distribution and control, Ensuring the effect of modulating the speed

Active Publication Date: 2016-04-13
NANJING UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, when applied to the terahertz frequency band, on the one hand, the commonly used transparent conductive film indium tin oxide will no longer be applicable, and a simple metal layer cannot meet the requirements, so it is necessary to seek new electrode designs such as sub-wavelength metal wire grids instead traditional film
On the other hand, the birefringence of most liquid crystal materials will be relatively small in the terahertz frequency band, so the adjustable amount is also small, and it is difficult to meet practical requirements in general design
And some special means to increase the amount of modulation, such as stacked structures, will significantly increase the manufacturing difficulty and cost of the device.

Method used

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  • A Broadband Tunable Terahertz Waveplate
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  • A Broadband Tunable Terahertz Waveplate

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] This embodiment is an example of selecting a large birefringent liquid crystal NJU-LDn-2 to make an adjustable quarter-wave plate.

[0031] The specific structural design is attached figure 1 As shown, the inner sides of the two quartz substrates 1 are provided with metal wire grids 2, and the metal wire grids on both sides are parallel to each other. The liquid crystal 4 material of the light-controlled alignment layer 3 of the liquid crystal cell realizes the parallel alignment of the liquid crystal by means of light-controlled alignment. And the alignment direction of the photo-alignment layer is 45° to the direction of the metal wire grid. The liquid crystal material selected in this example is NJU-LDn-2. The birefringence of the liquid crystal at 0.5-2THz is 0.279±0.03. It is calculated that the liquid crystal cell should be adjustable in the above-mentioned terahertz frequency range. The effect of a wave plate requires a minimum cell thickness of 450 μm.

[0032...

Embodiment 2

[0039] This embodiment is an example of selecting a large birefringent liquid crystal NJU-LDn-4 to make an adjustable quarter-wave plate.

[0040] The specific structural design and preparation method are the same as in Example 1, but the metal electrode material is aluminum, the selected material is liquid crystal NJU-LDn-4, and the birefringence at 0.5-2THz is 0.306±0.03, so the required minimum The cell thickness is 405 μm. Therefore, a liner film material of 410 μm is selected.

[0041] By changing the applied voltage, different phase modulations can be achieved for different frequencies. Taking the three frequencies of 0.6THz, 1.2THz and 1.8THz as an example, a quarter of the phase can be achieved by adding 100V, 27V and 15V respectively. The effect of the wave plate, such as Figure 4 shown.

[0042] Liquid crystal mixed crystal material Birefringent liquid crystal NJU-LDn-4 is formed by melting and mixing 81% of a component, 12% of b component, 5% of c component, and...

Embodiment 3

[0044] This embodiment is an example of selecting a large birefringent liquid crystal NJU-LDn-4 to make an adjustable half-wave plate.

[0045] The specific structural design and preparation methods are the same as those in Examples 1 and 2, because a half-wave plate is intended to be realized, and the minimum cell thickness required for calculation is 800 μm. Therefore, a liner film material of 800 μm is selected.

[0046] By changing the applied voltage, different phase modulations can be achieved for different frequencies. Taking the three frequencies of 0.6THz, 1.2THz and 1.8THz as an example, by adding 180V, 59V and 37V respectively, the phase modulation can be realized by half Wave plate effect.

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Abstract

The invention discloses a broadband-adjustable terahertz wave plate component which comprises two quartz substrates, metal wire gratings are arranged inside the quartz substrates, the metal wire gratings on two sides are parallel to each other, and the two quartz substrates form a liquid crystal box through frame glue. The liquid crystal box comprises an optical control orientation layer and a liquid crystal material. Liquid crystal is an electric control large birefringence liquid material. The optical control orientation layer and the liquid crystal material of the liquid crystal box achieve parallel orientation of the liquid crystal through an optical control orientation method, the orientation direction of the optical control orientation layer and the direction of the metal wire gratings form a 45-degree angle, and the liquid crystal box can achieve an adjustable one quarter or a half wave plate in a terahertz frequency range. The broadband-adjustable terahertz wave plate has the advantages of being wide in frequency range, self-polarization, high in transmittance, large in modulation quantity, fast in response and the like. In addition, the manufacture cost is low, efficiency is high, the broadband-adjustable terahertz wave plate can be produced in massive mode, and the application prospects are wide.

Description

technical field [0001] The invention relates to the technical field of terahertz optoelectronics, in particular to the design and preparation of a broadband tunable terahertz waveplate based on subwavelength metal wire grids and liquid crystal materials. Background technique [0002] Liquid crystal materials have both the fluidity of liquids and the orderliness of crystals. Due to their excellent tuning characteristics of external fields (electric field, light field, sound field, temperature field, etc.), they play an important role in information display and adjustable photonic devices. . Nematic liquid crystal is the most commonly used phase state, and in all nematic liquid crystal applications, orientation is the first step. The traditional orientation method, rubbing orientation, is the most widely used method, which has defects such as mechanical damage to the surface, electrostatic charge residue and particle contamination, and difficulty in realizing multi-domain str...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02F1/139
Inventor 胡伟林晓雯陆延青徐飞
Owner NANJING UNIV
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