TY - JOUR
T1 - Tailored Frequency Conversion in Nonlinear Subwavelength Grating Metaslabs
AU - Tal, Mai
AU - Jung, Hyunseung
AU - Yu, Jaeyeon
AU - Noh, Jiho
AU - Levy, Uriel
AU - Brener, Igal
AU - Ellenbogen, Tal
N1 - Publisher Copyright:
© 2025 The Author(s). Laser & Photonics Reviews published by Wiley-VCH GmbH.
PY - 2025
Y1 - 2025
N2 - The use of metaslab waveguides consisting of subwavelength gratings (SWGs) is proposed as a highly flexible approach to obtain phase-matched frequency conversion in nonlinear integrated devices. Control over the phase matching (PM) condition is achieved through modification of the linear modal propagation constants by the SWG. The method is experimentally demonstrated by fabrication of 0.4 mm-long GaAs metaslabs designed for second harmonic generation of near-infrared light. A controlled spectral shift of up to 100 nm in the PM condition, relative to a uniform slab is observed. Excellent agreement is found between the experimental results and finite-difference eigenmode simulations, which predict a tunable frequency conversion bandwidth of ∼300 nm for the design parameters. The different regimes of PM control supported by the structure are discussed. This work highlights the potential of SWGs as building blocks for tailored frequency conversion in nonlinear integrated devices.
AB - The use of metaslab waveguides consisting of subwavelength gratings (SWGs) is proposed as a highly flexible approach to obtain phase-matched frequency conversion in nonlinear integrated devices. Control over the phase matching (PM) condition is achieved through modification of the linear modal propagation constants by the SWG. The method is experimentally demonstrated by fabrication of 0.4 mm-long GaAs metaslabs designed for second harmonic generation of near-infrared light. A controlled spectral shift of up to 100 nm in the PM condition, relative to a uniform slab is observed. Excellent agreement is found between the experimental results and finite-difference eigenmode simulations, which predict a tunable frequency conversion bandwidth of ∼300 nm for the design parameters. The different regimes of PM control supported by the structure are discussed. This work highlights the potential of SWGs as building blocks for tailored frequency conversion in nonlinear integrated devices.
KW - Form birefringence
KW - Integrated nonlinear optics
KW - Subwavelength gratings
KW - Tunable phase matching
UR - http://www.scopus.com/inward/record.url?scp=105008431017&partnerID=8YFLogxK
U2 - 10.1002/lpor.202500241
DO - 10.1002/lpor.202500241
M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???
AN - SCOPUS:105008431017
SN - 1863-8880
JO - Laser and Photonics Reviews
JF - Laser and Photonics Reviews
ER -