Second-harmonic generation enabled by longitudinal electric-field components in photonic wire waveguides

Poulvellarie, Nicolas; Dave, Utsav D.; Alexander, Koen; Ciret, Charles; Billet, Maximilien; Arabí, Carlos Mas; Raineri, Fabrice; Combrié, Sylvain; Rossi, Alfredo De; Roelkens, Günther; Gorza, Simon-Pierre; Kuyken, Bart; Léo, François

doi:10.1103/physreva.102.023521

Cited by 9 publications

(12 citation statements)

References 27 publications

(56 reference statements)

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“…In practice however, more complex nonlinear wave mixing can be expected because the optical modes in high index contrast waveguides display large longitudinal components. We recently experimentally demonstrated SHG enabled by longitudinal components in III-V wire waveguides [8]. Here we further investigate the impact of strong longitudinal components on SHG.…”

Section: Introductionmentioning

confidence: 89%

“…Nonlinear coupling in this case always involves a longitudinal mode component [8]. In both nonlinear coefficients involving the TM 30 and TE 01 modes shown in Fig.…”

Section: Application To Iii-v-on-insulator Wire Waveguidesmentioning

confidence: 98%

“…Note that, Eq. (25) can be easily generalized to include the impact of propagation loss on the second harmonic generation efficiency [8].…”

Section: Second-harmonic Generationmentioning

confidence: 99%

“…where θ is the angle between the propagation direction z' and the z axis [8]. The zinc-blende crystalline arrangement of III-V crystals leads to a single nonzero tensor element ( χ (2) xyz = 2d 14 0).…”

Section: Application To Iii-v-on-insulator Wire Waveguidesmentioning

confidence: 99%

“…While we focus on III-V semiconductor wire waveguides [6,7,16], we stress that our analysis can be easily adapted to other platforms. We consider indium gallium phosphide (InGaP) around 1550 nm as the guiding material [8,17]. InGaP displays a4 symmetry and exhibits very low nonlinear losses at telecom wavelengths in the C-band.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Influence of longitudinal mode components on second harmonic generation in III-V-on-insulator nanowires

Ciret¹,

Alexander²,

Poulvellarie³

et al. 2020

Opt. Express

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The large index contrast and the subwalength tranverse dimensions of nanowires induce strong longitudinal electric field components. We show that these components play an important role for second harmonic generation in III-V wire waveguides. To illustrate this behavior, an efficiency map of nonlinear conversion is determined based on full-vectorial calculations. It reveals that many different waveguide dimensions and directions are suitable for efficient conversion of a fundamental quasi-TE pump mode around the 1550 nm telecommunication wavelength to a higher-order second harmonic mode.

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Section: Introductionmentioning

confidence: 89%

“…Nonlinear coupling in this case always involves a longitudinal mode component [8]. In both nonlinear coefficients involving the TM 30 and TE 01 modes shown in Fig.…”

Section: Application To Iii-v-on-insulator Wire Waveguidesmentioning

confidence: 98%

“…Note that, Eq. (25) can be easily generalized to include the impact of propagation loss on the second harmonic generation efficiency [8].…”

Section: Second-harmonic Generationmentioning

confidence: 99%

Section: Application To Iii-v-on-insulator Wire Waveguidesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Influence of longitudinal mode components on second harmonic generation in III-V-on-insulator nanowires

Ciret¹,

Alexander²,

Poulvellarie³

et al. 2020

Opt. Express

Self Cite

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show abstract

Customization and Information Encoding of Longitudinally Polarized Light Fields

Wang,

Tu,

Zhao

et al. 2023

Advanced Photonics Research

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The tightly focused structured light field displays a non‐negligible component of the electric field in the direction of propagation, i.e., the longitudinal light field. The longitudinal light field results in various novel optical phenomena, such as transverse spin angular momentum and 3D topological light fields. However, it remains a challenge to generate customized longitudinal light fields. Here, based on inverse design theory, the longitudinal light field can be customized on demand under the tightly focusing condition, which allows to generate the longitudinal light field with controllable structured distribution for propagating waves or manipulate the complex structures for all the three components of the electric field. In experiment, an experimental system is built integrating the generation, customization, and detection of structured longitudinal light field, and the customization of the longitudinal light fields with various patterns is experimentally realized. The customized longitudinal light field structures may find applications such as information encoding, long‐distance light manipulation, and novel light–matter interactions. As an example, information encoding is realized by the structured longitudinal light fields.

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Coupling to multi-mode waveguides with space-time shaped free-space pulses

Jolly¹,

Kockaert²

2023

J. Opt.

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Guided wave optics, including most prominently fiber optics and integrated photonics, very often considers only one or very few spatial modes of the waveguides. Despite being known and utilized for decades, multi-mode guided wave optics is currently rapidly increasing in sophistication in parallel with technological improvements and advancing simulation tools. The physics of multi-mode interactions are usually driven by some initial energy distribution in a number of spatial modes. In this work we introduce how, with free-space input beams having space-time couplings, the different modes can be excited with different complex frequency or time profiles. We cover fundamentals, the coupling with a few simple space-time aberrations, different waveguides, and a number of technical nuances. This concept of space-time initial conditions in multi-mode waveguides will provide yet another tool to study the rich nonlinear interactions in such systems.

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Second-harmonic generation enabled by longitudinal electric-field components in photonic wire waveguides

Cited by 9 publications

References 27 publications

Influence of longitudinal mode components on second harmonic generation in III-V-on-insulator nanowires

Influence of longitudinal mode components on second harmonic generation in III-V-on-insulator nanowires

Customization and Information Encoding of Longitudinally Polarized Light Fields

Coupling to multi-mode waveguides with space-time shaped free-space pulses

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