Your search keyword '"strip waveguide"' showing total 4 results

1. Numerical analysis of a miniaturized design of a Fabry–Perot resonator based on silicon strip and slot waveguides for bio-sensing applications.

Author

Butt, M. A., Khonina, S. N., and Kazanskiy, N. L.

Subjects

*FABRY-Perot resonators, *NUMERICAL analysis, *WAVEGUIDES, *FINITE element method, *BRAGG gratings, *COPLANAR waveguides

Abstract

A miniaturized design of a Fabry–Perot resonator based on silicon strip and slot waveguide is presented. The corrugated Bragg gratings and a cavity are structured on both sides of a waveguide. The spectral characteristics of both the resonator designs are studied. The variation of the medium refractive index is detected by monitoring the shift of the spectral maxima of the Fabry–Perot cavity. The transmission spectrum and electric field distribution of the sensor structures are simulated using finite-element method. The resonator based on slot-waveguide shows better sensitivity and figure of merits as compared to strip waveguide. Our proposed sensor design has the potential to find further applications in biomedical science and nano-photonic circuits. [ABSTRACT FROM AUTHOR]

Published

2019

2. Enhancing the performance of strip and 180-deg slot waveguide bends for integrated optical waveguide modulator.

Author

Al-Tarawni, Musab A. M., Bakar, A. Ashrif A., Zain, Ahmad Rifqi Md., Tarawneh, Mou'ad A., and Ahmad, Sahrim Hj.

Subjects

*OPTICAL modulators, *SUBSTRATE integrated waveguides, *POWER transmission, *WAVEGUIDES

Abstract

Waveguide bends are essential structures for designing an integrated optical waveguide modulator (IOWM). However, reducing bending loss for strip and slot waveguide bends and obtaining a small increment of footprint size by bending the radius are challenging issues. We aim to evaluate whether using strip waveguides with an adiabatic bend reduces the bending loss and to obtain a specific length suitable for a V-shaped mode converter with a small increment of footprint size in the IOWM. Furthermore, a new 180-deg-bend structure for slot waveguides, to reduce bending loss, is investigated. The results of reducing bending radius (R) with a large coverage angle (ac) for strip waveguide bends revealed a low bending loss and simultaneously a reduction of the footprint size in the IOWM. For the 180-deg slot waveguide bend, both the bending and coupling losses were reduced by optimizing the taper and distance offset, which enhanced transmission power efficiency. We validated the feasibility and efficiency of the proposed bending strip and slot structures in IOWM, which is important for integrated optical applications. [ABSTRACT FROM AUTHOR]

Published

2019

3. Ultra-compact and broadband orthogonal coupler between strip and slot silicon waveguides.

Author

Li, Fei, Hu, Xiaofeng, Wu, Jiayang, Zhou, Linjie, and Su, Yikai

Abstract

We propose an ultra-compact and broadband orthogonal coupler between a strip waveguide and a slot waveguide. Numerical simulations show that a 700-nm wide (full width at half maximum) coupling spectrum can be theoretically achieved and a coupling efficiency as high as 73% around 1500-nm wavelength can be obtained. The coupling length is only about 475 nm which makes the coupler very compact. This configuration does not include a tapering section and has a high tolerance to the waveguide height, alleviating the stringent fabrication requirements. [ABSTRACT FROM PUBLISHER]

Published

2011

4. Design of a compact crossing for silicon-based slot and strip waveguides.

Author

Yin Xu, Jiayuan Wang, Jinbiao Xiao, and Xiaohan Sun

Subjects

*MULTIMODE waveguides, *OPTICAL waveguides, *OPTICAL crosstalk, *FINITE difference time domain method, *ELECTROACOUSTICS

Abstract

A compact crossing for silicon-based slot and strip waveguides is proposed by utilizing a strip-multimode waveguide (SMW) crossing at the center and two logarithmically tapered slot-to-strip mode converters at the ports with slot waveguides. For input/output ports with slot waveguides, the guided modes are efficiently transformed through the mode converter and then enter into the SMW (without mode converters for those ports with strip waveguides), where the fields converge at the center of the intersection due to the self-imaging effect. Hence, the size of the input beam is much smaller than the width of the SMW at the crossing center, leading to significant reductions of the crosstalk and radiation loss. The numerical results show that a hybrid waveguide crossing operating at the wavelength of 1.55 µm with the insertion loss, crosstalk, and reflection of 0.14/0.164, -35.88/-38.79, and -35.35/-40.5 dB for input ports with slot/strip waveguides, respectively, is achieved. Moreover, the fabrication tolerances to the structural parameters are investigated by using a finite-difference time-domain method and evolution of the injected field along the propagation distance through the crossing structure is also demonstrated. [ABSTRACT FROM AUTHOR]

Published

2013