Inverse design and characterization of compact, broadband, and low-loss chip-scale photonic power splitters

Hansen, Søren Engelberth; Arregui, Guillermo; Babar, Ali Nawaz; Christiansen, Rasmus Ellebæk; Stobbe, Søren

doi:10.1088/2633-4356/ad2521

Cited by 2 publications

(1 citation statement)

References 69 publications

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“…Additionally, the loss in arbitrary Yjunctions is influenced by the size of the gap in the branch [16]. Furthermore, the adoption of methodologies for designing photonic devices, such as shape optimization, topology optimization or inverse design, has attracted widespread interest in recent years [17][18][19][20]. These approaches offer advantages in reducing device size while maintaining good performance through the specialized algorithms.…”

Section: Introductionmentioning

confidence: 99%

Low-loss and broadband arbitrary ratios 1 × 2 power splitter based on asymmetrically tapered multimode interference

Zhu,

Zhong,

Lin

et al. 2024

J. Opt.

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This work presents a low-loss and broadband 1 × 2 power splitter with arbitrary power splitting ratios (PSRs) based on asymmetrically tapered multimode interference. The asymmetrically input tapered waveguide is employed to gradually alter the direction of light propagating in the multimode region. Experimental results show that the device can maintain low losses (~0.2–0.4 dB) with adjusted PSRs ranging from 50%:50% to 75%:25% at 1550 nm. The adjustable range of PSRs can be extended by increasing the asymmetry of the structure. Additionally, its performance is weakly dependent on wavelength within the range of 1530–1565 nm. In theory, the variations in the PSRs are less than 1.8% for a wavelength range of 100 nm (1500–1600 nm) and less than 4.9% for a wavelength range of 300 nm (1400–1700 nm). Benefiting from the gradual alteration of the direction of light propagation, the device exhibits a low output phase difference of ±8.7°, and the maximum phase deviation is below 6.2° over the wavelength range from 1500 nm to 1600 nm.

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Section: Introductionmentioning

confidence: 99%

Low-loss and broadband arbitrary ratios 1 × 2 power splitter based on asymmetrically tapered multimode interference

Zhu,

Zhong,

Lin

et al. 2024

J. Opt.

View full text Add to dashboard Cite

show abstract

Compact Low Loss Ribbed Asymmetric Multimode Interference Power Splitter

Liang,

Lv,

Liu

et al. 2024

Photonics

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Optical power splitters (OPSs) are utilized extensively in integrated photonic circuits, drawing significant interest in research on power splitters with adjustable splitting ratios. This paper introduces a compact, low-loss 1 × 2 asymmetric multimode interferometric (MMI) optical power splitter on a silicon-on-insulator (SOI) platform. The device is simulated using the finite difference method (FDM) and eigenmode expansion solver (EME). It is possible to attain various output power splitting ratios by making the geometry of the MMI central section asymmetric relative to the propagation axis. Six distinct optical power splitters are designed with unconventional splitting ratios in this paper, which substantiates that the device can achieve any power splitter ratios (PSRs) in the range of 95:5 to 50:50. The dimensions of the multimode section were established at 2.9 × (9.5–10.9) μm. Simulation results show a range of unique advantages of the device, including a low extra loss of less than 0.4 dB, good fabrication tolerance, and power splitting ratio fluctuation below 3% across the 1500 nm to 1600 nm wavelength span.

show abstract

Inverse design and characterization of compact, broadband, and low-loss chip-scale photonic power splitters

Cited by 2 publications

References 69 publications

Low-loss and broadband arbitrary ratios 1 × 2 power splitter based on asymmetrically tapered multimode interference

Low-loss and broadband arbitrary ratios 1 × 2 power splitter based on asymmetrically tapered multimode interference

Compact Low Loss Ribbed Asymmetric Multimode Interference Power Splitter

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