State-of-the-Art and Perspectives on Silicon Waveguide Crossings: A Review

Wu, Shoujun; Mu, Xin; Cheng, Lirong; Mao, Simei; Fu, H. Y.

doi:10.3390/mi11030326

Cited by 47 publications

(22 citation statements)

References 84 publications

(82 reference statements)

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“…Straight waveguide crossing incur a larger optical loss. Other notable crossings are reported in [58]. Silicon and silicon nitride trilayer waveguide crossings are reported in [59].…”

Section: Waveguide Crossingmentioning

confidence: 72%

A Review of Devices for Integrated Silicon Photonic Switches

Asp¹

2021

Preprint

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“…Straight waveguide crossing incur a larger optical loss. Other notable crossings are reported in [58]. Silicon and silicon nitride trilayer waveguide crossings are reported in [59].…”

Section: Waveguide Crossingmentioning

confidence: 72%

A Review of Devices for Integrated Silicon Photonic Switches

Asp¹

2021

Preprint

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“…7(c) by an additional angle γ 1, and the forbidden region is still far from s = 0. In-plane crossings in silicon can achieve sub-40 dB crosstalk suppression (γ < 0.01) with insertion losses well below 0.1 dB [36][37][38][39][40]. Unlike directional couplers, crossings are inherently broadband; the insertion loss and crosstalk depend only very weakly on λ, so any crossing imperfections can be treated as (correctable) wavelengthindependent errors that do not affect the bandwidth enhancements of the MZI+Crossing scheme.…”

Section: Mzi+crossingmentioning

confidence: 99%

Asymptotically Fault-Tolerant Programmable Photonics

Hamerly,

Bandyopadhyay,

Englund

2021

Preprint

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Component errors limit the scaling of multiport interferometers based on MZI meshes. These errors arise because imperfect MZIs cannot be perfectly programmed to the cross state. Here, we introduce two modified mesh architectures that overcome this limitation: (1) a 3-splitter MZI for generic errors, and (2) a broadband MZI+Crossing design for correlated errors. Because these designs allow for perfect realization of the cross state, the matrix fidelity no longer decreases with mesh size, allowing scaling to arbitrarily large meshes. The proposed architectures support progressive self-configuration, are more compact than previous MZI-doubling schemes, and do not require additional phase shifters. This eliminates a major obstacle to the development of very-large-scale linear photonic circuits.

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“…The silicon photonics has attracted more attention from researchers in the past few decades [1][2][3][4][5]. This is due to a number of reasons, including the cheaper implementation of optical devices using standard semiconductor manufacturing technologies [2] and miniaturization of solutions for light transmission through optical fibers [3]. It is also possible to obtain a high integration density due to the large refractive index of silicon [1].…”

Section: Introductionmentioning

confidence: 99%

“…A number of classical structures in the construction of crossing silicon waveguides are well known, such as subwavelength grating, shaped taper, holey subwavelength grating [3]. In particular, the methodology for designing silicon based waveguide Bragg gratings (WBGs) in detail discusses the paper [8].…”

Section: Introductionmentioning

confidence: 99%

Optical Vortices Sharp Focusing by Silicon Ring Gratings Using High-Performance Computer Systems

Savelyev

2021

Proceedings of CECNet 2021

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The diffraction of vortex laser beams with circular polarization (with different direction of polarization rotation) by silicon ring gratings was investigated in this paper. The silicon diffractive axicons with different numerical apertures (NA) were considered as such ring gratings. The considered diffractive axicons are compared with single silicon circular protrusion (cylinder). The finite difference time domain method was used for Light propagation (3D) through the proposed silicon ring gratings and silicon cylinder. The possibility of subwavelength focusing by varying the height of the elements is demonstrated. In particular, it is numerically shown that a silicon cylinder forms a light spot with the minimum size (intensity) of the longitudinal component of the electric field FWHM is 0.32λ.

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State-of-the-Art and Perspectives on Silicon Waveguide Crossings: A Review

Cited by 47 publications

References 84 publications

A Review of Devices for Integrated Silicon Photonic Switches

A Review of Devices for Integrated Silicon Photonic Switches

Asymptotically Fault-Tolerant Programmable Photonics

Optical Vortices Sharp Focusing by Silicon Ring Gratings Using High-Performance Computer Systems

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