Abstract
The on-chip scale circuit of the optoelectronic transformer is designed and manipulated using the microring resonator system. By using the monochromatic input light source, the electro-optic signals can be generated and functioned as the step up and down conversion by mean of the on-chip optoelectronic transformer. The step up and down of the electro-optic related power conversions can be obtained via the input and drop port connections. The results obtained have shown that the flexible up and down electro-optic conversion ratios of 1: 5 and 10:1 for the step up and down conversions, respectively. The uses light source wavelength source was centered at 800 nm, where the conversion stability of 1600 fs is noted. The linearity trend of the conversion stability is confirmed.
Highlights
Optoelectronic and plasmonic materials have become the most exciting goals for the new disrupted changes in modern advanced technologies
The required input/output signal output can be configured by the device components, which can be supplied by the optoelectronic transformer in either the step-up or down requirements
The center ring signals are coupled by the nonlinear side ring signals, in which the short coherence pulse of the side ring signals can be resonant with the center ring signals and the obtained peak signal power is higher within the shorter time, which means that the power per area is increased but the conservation of energy is maintained, which is detected at the throughput port
Summary
Optoelectronic and plasmonic materials have become the most exciting goals for the new disrupted changes in modern advanced technologies. 3 E2 e jkn where Ead = Eth. The circumference of the ring is L. LR, LL and LD are the circumference of the right, left and center rings.
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