Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides

Md Saiful Islam Sumon; Artem S. Vorobev; Samir Ghosh; Fatih Bilge Atar; Nicola Maraviglia; Sk Shafaat Saud Nikor; Ganga Chinna Rao Devarapu; Chiranjeevi Maddi; Imad I. Faruque; Sarvagya Dwivedi; Robert Bowman; Liam O’Faolain; Brian Corbett; Shamsul Arafin

doi:10.1364/OL.560034

Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides

Md Saiful Islam Sumon
, Artem S. Vorobev
, Samir Ghosh
, Fatih Bilge Atar
, Nicola Maraviglia
, Sk Shafaat Saud Nikor
, Ganga Chinna Rao Devarapu
, Chiranjeevi Maddi
, Imad I. Faruque
, Sarvagya Dwivedi
, Robert Bowman
, Liam O’Faolain
, Brian Corbett
, Shamsul Arafin

Research output: Contribution to journal › Article › peer-review

Abstract

We demonstrate efficient on-chip green light generation via frequency upconversion in silicon nitride–thin-film lithium niobate (SiN-TFLN) hybrid waveguides, obtained by transfer printing LN coupons on selected areas of photonic integrated circuits (PICs). By utilizing modal phase matching (MPM), our devices achieve a high normalized conversion efficiency of 42.5% W⁻¹cm⁻² in a single-pass, 2.4-mm-long waveguide configuration. The SiN–LN transition in the waveguide inherently facilitates mode conversion, transforming a higher-order second-harmonic mode into a fundamental TE mode, ensuring coherent, narrow-linewidth, green light emission. Our waveguide platform gives rise to a wavelength shift of ∼1 nm for every 10 nm of waveguide width variation and temperature-induced wavelength tuning of ∼0.02 nm/°C.

Original language	English
Pages (from-to)	3281-3284
Number of pages	4
Journal	Optics Letters
Volume	50
Issue number	10
DOIs	https://doi.org/10.1364/OL.560034
Publication status	Published - 15 May 2025

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10.1364/OL.560034

https://hdl.handle.net/10468/17646Licence: CC BY-NC-ND

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Sumon, M. S. I., Vorobev, A. S., Ghosh, S., Atar, F. B., Maraviglia, N., Nikor, S. S. S., Devarapu, G. C. R., Maddi, C., Faruque, I. I., Dwivedi, S., Bowman, R., O’Faolain, L., Corbett, B., & Arafin, S. (2025). Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides. Optics Letters, 50(10), 3281-3284. https://doi.org/10.1364/OL.560034

@article{4f75d76b27aa42bb8ce0068e47de9ffe,

title = "Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides",

abstract = "We demonstrate efficient on-chip green light generation via frequency upconversion in silicon nitride–thin-film lithium niobate (SiN-TFLN) hybrid waveguides, obtained by transfer printing LN coupons on selected areas of photonic integrated circuits (PICs). By utilizing modal phase matching (MPM), our devices achieve a high normalized conversion efficiency of 42.5\% W−1cm−2 in a single-pass, 2.4-mm-long waveguide configuration. The SiN–LN transition in the waveguide inherently facilitates mode conversion, transforming a higher-order second-harmonic mode into a fundamental TE mode, ensuring coherent, narrow-linewidth, green light emission. Our waveguide platform gives rise to a wavelength shift of ∼1 nm for every 10 nm of waveguide width variation and temperature-induced wavelength tuning of ∼0.02 nm/°C.",

author = "Sumon, \{Md Saiful Islam\} and Vorobev, \{Artem S.\} and Samir Ghosh and Atar, \{Fatih Bilge\} and Nicola Maraviglia and Nikor, \{Sk Shafaat Saud\} and Devarapu, \{Ganga Chinna Rao\} and Chiranjeevi Maddi and Faruque, \{Imad I.\} and Sarvagya Dwivedi and Robert Bowman and Liam O{\textquoteright}Faolain and Brian Corbett and Shamsul Arafin",

note = "Publisher Copyright: {\textcopyright} 2025 Optica Publishing Group. All rights are reserved.",

year = "2025",

month = may,

day = "15",

doi = "10.1364/OL.560034",

language = "English",

volume = "50",

pages = "3281--3284",

journal = "Optics Letters",

issn = "0146-9592",

publisher = "Optica Publishing Group (formerly OSA)",

number = "10",

}

Sumon, MSI, Vorobev, AS, Ghosh, S, Atar, FB, Maraviglia, N, Nikor, SSS, Devarapu, GCR, Maddi, C, Faruque, II, Dwivedi, S, Bowman, R, O’Faolain, L, Corbett, B & Arafin, S 2025, 'Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides', Optics Letters, vol. 50, no. 10, pp. 3281-3284. https://doi.org/10.1364/OL.560034

TY - JOUR

T1 - Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides

AU - Sumon, Md Saiful Islam

AU - Vorobev, Artem S.

AU - Ghosh, Samir

AU - Atar, Fatih Bilge

AU - Maraviglia, Nicola

AU - Nikor, Sk Shafaat Saud

AU - Devarapu, Ganga Chinna Rao

AU - Maddi, Chiranjeevi

AU - Faruque, Imad I.

AU - Dwivedi, Sarvagya

AU - Bowman, Robert

AU - O’Faolain, Liam

AU - Corbett, Brian

AU - Arafin, Shamsul

PY - 2025/5/15

Y1 - 2025/5/15

N2 - We demonstrate efficient on-chip green light generation via frequency upconversion in silicon nitride–thin-film lithium niobate (SiN-TFLN) hybrid waveguides, obtained by transfer printing LN coupons on selected areas of photonic integrated circuits (PICs). By utilizing modal phase matching (MPM), our devices achieve a high normalized conversion efficiency of 42.5% W−1cm−2 in a single-pass, 2.4-mm-long waveguide configuration. The SiN–LN transition in the waveguide inherently facilitates mode conversion, transforming a higher-order second-harmonic mode into a fundamental TE mode, ensuring coherent, narrow-linewidth, green light emission. Our waveguide platform gives rise to a wavelength shift of ∼1 nm for every 10 nm of waveguide width variation and temperature-induced wavelength tuning of ∼0.02 nm/°C.

AB - We demonstrate efficient on-chip green light generation via frequency upconversion in silicon nitride–thin-film lithium niobate (SiN-TFLN) hybrid waveguides, obtained by transfer printing LN coupons on selected areas of photonic integrated circuits (PICs). By utilizing modal phase matching (MPM), our devices achieve a high normalized conversion efficiency of 42.5% W−1cm−2 in a single-pass, 2.4-mm-long waveguide configuration. The SiN–LN transition in the waveguide inherently facilitates mode conversion, transforming a higher-order second-harmonic mode into a fundamental TE mode, ensuring coherent, narrow-linewidth, green light emission. Our waveguide platform gives rise to a wavelength shift of ∼1 nm for every 10 nm of waveguide width variation and temperature-induced wavelength tuning of ∼0.02 nm/°C.

UR - https://www.scopus.com/pages/publications/105005263277

U2 - 10.1364/OL.560034

DO - 10.1364/OL.560034

M3 - Article

AN - SCOPUS:105005263277

SN - 0146-9592

VL - 50

SP - 3281

EP - 3284

JO - Optics Letters

JF - Optics Letters

IS - 10

ER -

Efficient on-chip green light generation via frequency upconversion in SiN–transfer-printed LN hybrid waveguides

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