Nonlinear increase, invisibility, and sign inversion of a localized fs-laser-induced refractive index change in crystals and glasses

Lapointe, Jérôme; Bérubé, Jean-Philippe; Ledemi, Yannick; Dupont, Albert; Fortin, Vincent; Messaddeq, Younès; Vallée, Réal

doi:10.1038/s41377-020-0298-8

Cited by 40 publications

(25 citation statements)

References 64 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A record refractive index change value of is observed for the waveguide inscribed at 1,000 mm/min. A value of being the previous best was reported very recently using femtosecond-laser-induced electronic band-gap shift (FLIBGS) technique 21 . But the same was limited to a particular operating wavelength in visible.…”

Section: Resultsmentioning

confidence: 93%

Record-high positive refractive index change in bismuth germanate crystals through ultrafast laser enhanced polarizability

Fernandez

Privat

Withford

et al. 2020

Sci Rep

View full text Add to dashboard Cite

Unlike other crystals, the counter intuitive response of bismuth germanate crystals ($${\text {Bi}}_4{\text {Ge}}_3{\text {O}}_{12}$$ Bi 4 Ge 3 O 12 , BGO) to form localized high refractive index contrast waveguides upon ultrafast laser irradiation is explained for the first time. While the waveguide formation is a result of a stoichiometric reorganization of germanium and oxygen, the origin of positive index stems from the formation of highly polarisable non-bridging oxygen complexes. Micro-reflectivity measurements revealed a record-high positive refractive index contrast of $$4.25\times 10^{-2}$$ 4.25 × 10 - 2 . The currently accepted view that index changes $$>1\times 10^{-2}$$ > 1 × 10 - 2 could be brought about only by engaging heavy metal elements is strongly challenged by this report. The combination of a nearly perfect step-index profile, record-high refractive index contrast, easily tunable waveguide dimensions, and the intrinsic high optical non-linearity, electro-optic activity and optical transparency up to $$5.5\,\upmu {\text {m}}$$ 5.5 μ m of BGO make these waveguides a highly attractive platform for compact 3D integrated optics.

show abstract

Section: Resultsmentioning

confidence: 93%

Record-high positive refractive index change in bismuth germanate crystals through ultrafast laser enhanced polarizability

Fernandez

Privat

Withford

et al. 2020

Sci Rep

View full text Add to dashboard Cite

show abstract

“…The values obtained are similar to the ones reported in Corning Eagle and Schott AF glasses. However, much larger index contrasts for instance have been reported in germanium sulphide glass (1.7 × 10 −2 ) at a wavelength close to its bandgap, [ 29 ] fused silica (3.4 × 10 −2 ) [ 30 ] and bismuth germanate crystal (4.25 × 10 −2 ). [ 18 ] While the refractive index contrast for the purpose designed sodium‐aluminosilicate glass of 1 × 10 −2 is similar to optical fibres, a further enhancement is possible by replacing lighter Na with heavier K as alkaline earth and alkali are the refractive index providers in these glass waveguides.…”

Section: Resultsmentioning

confidence: 99%

Designer Glasses—Future of Photonic Device Platforms

Fernandez

Gross

Privat

et al. 2021

Adv Funct Materials

View full text Add to dashboard Cite

The intentional inclusion of key atomic elements in a purpose designed glass helps to achieve unprecedented control over the ultrafast laser written circular waveguide morphology and refractive index change. Behavioral response of glass constituents to ultrafast laser in 14 different commercial silicate glasses having various compositions are studied. Viscosity, aluminum to alkaline earth+alkali ratio, and total silicon content within the glass are the prime control factors for producing waveguides with high circularity and refractive index change. Drawing on this knowledge, the designer glass is successfully fabricated from an empirical formula that facilitates maintaining circular waveguide morphology, high refractive index over fast feed rates, and amorphous composition.

show abstract

“…More than that a new phenomenon allowing a significant increase of the refractive index contrast has been recently reported, which is called the effect of femtosecond-laser-induced electronic bandgap shift (FLIBGS). 103 When FLIBGS occurs, the absorption edge of the transmission spectrum shifts. At a propagation wavelength near the transparent material electronic resonance, the FLIBGS greatly affects the absorption and thus the refractive index, as predicted by the Kramers-Kronig relations.…”

Section: Type I and Type Ii Modificationsmentioning

confidence: 99%

Femtosecond laser-inscribed optical waveguides in dielectric crystals: a concise review and recent advances

Kong

Chen

2022

Adv. Photon.

View full text Add to dashboard Cite

Nonlinear increase, invisibility, and sign inversion of a localized fs-laser-induced refractive index change in crystals and glasses

Cited by 40 publications

References 64 publications

Record-high positive refractive index change in bismuth germanate crystals through ultrafast laser enhanced polarizability

Record-high positive refractive index change in bismuth germanate crystals through ultrafast laser enhanced polarizability

Designer Glasses—Future of Photonic Device Platforms

Femtosecond laser-inscribed optical waveguides in dielectric crystals: a concise review and recent advances

Contact Info

Product

Resources

About