Design of a Broadband Polarization Splitter Based on Anisotropy-Engineered Tilted Subwavelength Gratings

Herrero-Bermello, Alaine; Luque‐González, José Manuel; Velasco, Aitor V.; Ortega‐Moñux, Alejandro; Cheben, Pavel; Halir, Robert

doi:10.1109/jphot.2019.2912335

Cited by 41 publications

(27 citation statements)

References 30 publications

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“…[172] Several PBSs have been realized based on SWGs, [173][174][175] inverse design method, [176] and anisotropyengineered metamaterials. [177,178] The working bandwidth is limited for ADC-based PBSs, as the wavelength shift leads to variations in both the effective index and the coupling strength. A PBS was proposed and demonstrated through "effective MZIs [133] -1.1…”

Section: Pbssmentioning

confidence: 99%

Silicon Photonic Platform for Passive Waveguide Devices: Materials, Fabrication, and Applications

Zhang

Qiu

et al. 2020

Adv Materials Technologies

154

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Silicon photonics has attracted tremendous interest from academia and industry, as the fabrication of the silicon family of photonic devices is mostly compatible with the microelectronics process using complementary metal‐oxide semiconductors (CMOS). Herein, three silicon‐family materials are discussed: silicon, silicon nitride, and silica. In addition, hybrid integration with a 2D material, graphene, is examined. First, the material and waveguide properties are reviewed. Second, typical fabrication processes for waveguide devices are introduced. Subsequently, a variety of passive waveguide devices, operating at different physical dimensions covering wavelength, polarization, and mode, are discussed. They correspond to fixed and tunable filters, polarization beam splitters and rotators, and mode conversion and multiplexing devices. These passive waveguide devices play important roles in a wide range of applications including telecom, interconnects, computing, sensing, quantum information processing, bio‐photonics, and energy.

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Section: Pbssmentioning

confidence: 99%

Silicon Photonic Platform for Passive Waveguide Devices: Materials, Fabrication, and Applications

Zhang

Qiu

et al. 2020

Adv Materials Technologies

154

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“…Tilting each individual segment of a SWG waveguide away from the transverse direction significantly modifies TE effective refractive index, whereas TM mode remains almost unaffected. This principle was leveraged in the theoretical design of an MMI polarization beam splitter [26], resulting in a compact device under 100 µm long. Tilted SWGs were also applied to a polarization-independent monomode waveguide [27], achieving a birefringence under 6.10 −3 in a 100-nm bandwidth around a central wavelength of 1550 nm.…”

Section: Introductionmentioning

confidence: 99%

Experimental demonstration of metamaterial anisotropy engineering for broadband on-chip polarization beam splitting

Herrero-Bermello¹,

Dias-Ponte²,

Luque‐González³

et al. 2020

Opt. Express

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Subwavelength metamaterials exhibit a strong anisotropy that can be leveraged to implement high-performance polarization handling devices in silicon-on-insulator. Whereas these devices benefit from single-etch step fabrication, many of them require small feature sizes or specialized cladding materials. The anisotropic response of subwavelength metamaterials can be further engineered by tilting its constituent elements away from the optical axis, providing an additional degree of freedom in the design. In this work, we demonstrate this feature through the design, fabrication and experimental characterization of a robust multimode interference polarization beam splitter based on tilted subwavelength gratings. A 110-nm minimum feature size and a standard silicon dioxide cladding are maintained. The resulting device exhibits insertion loss as low as 1 dB, an extinction ratio better than 13 dB in a 120-nm bandwidth, and robust tolerances to fabrication deviations.

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“…Uniform (non‐graded) SWGs have been used to demonstrate many high‐performance devices in the silicon‐on‐insulator (SOI) platform, including integrated biosensors, ultrabroadband waveguide couplers, and narrowband Bragg filters among others. The anisotropy of such uniform SWGs has recently been exploited to achieve advanced functionalities such as broadband behavior, control of evanescent fields, and high‐performance polarization handling . However, in graded‐index metamaterials, the advantages of this intrinsic anisotropy remain unexplored.…”

Section: Introductionmentioning

confidence: 99%

An Ultracompact GRIN‐Lens‐Based Spot Size Converter using Subwavelength Grating Metamaterials

Luque‐González

Halir

Wangüemert‐Pérez

et al. 2019

Laser & Photonics Reviews

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Graded‐index materials offer virtually complete control over light propagation in integrated photonic chips but can be challenging to implement. Here, an anisotropic graded‐index metamaterial, synthesized with fully etched silicon subwavelength structures, is proposed. Based on this material, a spot size converter that expands the transverse electric (TE) mode field profile from a 0.5 µm wide silicon wire waveguide to a 15 µm wide waveguide within a length of only 14 µm is designed. Measured insertion losses are below 1 dB in an unprecedented 130 nm bandwidth, limited by the measurement setup, with full 3D finite‐difference time‐domain (FDTD) simulations predicting a bandwidth in excess of 300 nm. Furthermore, the device is well suited to feed fiber‐to‐chip grating couplers, while requiring a footprint ten times smaller than conventional adiabatic tapers.

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Design of a Broadband Polarization Splitter Based on Anisotropy-Engineered Tilted Subwavelength Gratings

Cited by 41 publications

References 30 publications

Silicon Photonic Platform for Passive Waveguide Devices: Materials, Fabrication, and Applications

Silicon Photonic Platform for Passive Waveguide Devices: Materials, Fabrication, and Applications

Experimental demonstration of metamaterial anisotropy engineering for broadband on-chip polarization beam splitting

An Ultracompact GRIN‐Lens‐Based Spot Size Converter using Subwavelength Grating Metamaterials

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