Passive electro-optic antenna using polymer material

Abstract: The experimental results of a polymer microwave electro-optic antenna are reported. The device amplitude-modulates an optical input beam with a free-space propagating electromagnetic wave. By using a new dipole printed antenna, the electromagnetic energy is concentrated inside the device. An antenna factor of 168 dB=m is achieved with only 1 mm of electro-optic polymer.

“…[7][8][9][10] The sensible choice of electrooptic material is one of the powerful approaches to enhance the execution of electro-optic switches [1]. Contrasted and inorganic electro optic materials, polymer electro-optic materials have some phenomenal components, including high electro-optic coefficients, simple control of refractive index and basic innovation processing [11][12][13][14]. Electro-optic material like lithium niobate has refractive indices that can be changed by a connected electric field as appeared in the Figure 1.…”

Enhancement the performance of an electro-optic switch by analysis the effect of tensile stress, axial and radial strain

“…[7][8][9][10] The sensible choice of electrooptic material is one of the powerful approaches to enhance the execution of electro-optic switches [1]. Contrasted and inorganic electro optic materials, polymer electro-optic materials have some phenomenal components, including high electro-optic coefficients, simple control of refractive index and basic innovation processing [11][12][13][14]. Electro-optic material like lithium niobate has refractive indices that can be changed by a connected electric field as appeared in the Figure 1.…”

Enhancement the performance of an electro-optic switch by analysis the effect of tensile stress, axial and radial strain

“…Electro-optical (EO) field sensors have been researched actively towards low signal loss and less destructive observation of radio frequency (RF) electro-magnetic fields for various purposes, including telecommunication, field measurements, and electro-magnetic interference (EMI) measurements [1][2][3][4][5][6][7]. However, EO sensors have not been widely used in practical EMI tests, partly because of their relatively low sensitivity and the difficulty in fabricating waveguide structures for them.…”

Electro-optical field sensor using single total internal reflection in electro-optical crystals

“…The electro-optic switches based on the MZI structure are operated by the principles of electro-optic effect where the change of refractive indices of the two arms of MZI is produced by applying external electric field. Compared with inorganic electrooptic materials, polymeric electro-optic materials have some excellent features, such as high electro-optic coefficient, easy control of refractive index and simple technology processing [9][10][11][12]. A novel sol-gel polymer with cross-linked structure and exceptionally high electro-optic coefficients of 138 pm/V at 1550 nm, which has been already successfully used in the fabrication of MZI modulators with low half-wave voltage of less than 1.0 V [13,14], is adopted in designing our switch.…”

Optimal design and analysis of a high-speed, low-voltage polymer Mach–Zehnder interferometer electro-optic switch