Thomas Hawkins scite author profile

Glass fibres with silicon cores have emerged as a versatile platform for all-optical processing, sensing and microscale optoelectronic devices. Using SiGe in the core extends the accessible wavelength range and potential optical functionality because the bandgap and optical properties can be tuned by changing the composition. However, silicon and germanium segregate unevenly during non-equilibrium solidification, presenting new fabrication challenges, and requiring detailed studies of the alloy crystallization dynamics in the fibre geometry. We report the fabrication of SiGe-core optical fibres, and the use of CO 2 laser irradiation to heat the glass cladding and recrystallize the core, improving optical transmission. We observe the ramifications of the classic models of solidification at the microscale, and demonstrate suppression of constitutional undercooling at high solidification velocities. Tailoring the recrystallization conditions allows formation of long single crystals with uniform composition, as well as fabrication of compositional microstructures, such as gratings, within the fibre core.

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Image transport through a disordered optical fibre mediated by transverse Anderson localization

Karbasi¹,

Frazier²,

Köch³

et al. 2014

Nat Commun

130

119

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Apoptosis of lung carcinoma cells induced by a flexible optical fiber-based cold microplasma

Kim

Ballato

Foy

et al. 2011

Biosensors and Bioelectronics

140

109

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Advancements in semiconductor core optical fiber

Ballato¹,

Hawkins²,

Foy³

et al. 2010

Optical Fiber Technology

109

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Single‐Cell‐Level Microplasma Cancer Therapy

Kim¹,

Wei²,

Li³

et al. 2011

Small

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Thomas Hawkins

Laser recrystallization and inscription of compositional microstructures in crystalline SiGe-core fibres

Image transport through a disordered optical fibre mediated by transverse Anderson localization

Apoptosis of lung carcinoma cells induced by a flexible optical fiber-based cold microplasma

Advancements in semiconductor core optical fiber

Single‐Cell‐Level Microplasma Cancer Therapy

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