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Development of nanostructured GRIN microlenses with temperature-controlled diffusion
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Paper Abstract

Nanostructured GRIN components are optical elements which can have arbitrary refractive index profile while retaining flat-parallel entry and exit facets. They are composed of more than 9000 individually placed glass subwavelength rods made of two types of glass with different refractive indices. They are developed using a standard stack-and-draw method used for fibre drawing. The refractive index profile of the nanostructured GRIN element can be described by the effective refractive index theory when the diameter of the individual rods are sufficiently smaller than the wavelength. In this paper we show that use of glasses designed for high diffusion and high temperatures during drawing process allows to develop parabolic nanostructured GRIN microlenses with rod diameter larger than wavelength. In particular, we have developed a GRIN microlens with diameter of 115 μm composed of 115 rods on diagonal. Our GRIN microlens has a length of 200 μm and a working distance equal to 1.05 mm, with focal spot of 8.5 μm measured for the 658 nm wavelength. We experimentally verified its imaging properties. Image resolution higher than 3.25 μm was measured.

Paper Details

Date Published: 4 March 2019
PDF: 7 pages
Proc. SPIE 10927, Photonic and Phononic Properties of Engineered Nanostructures IX, 109270N (4 March 2019); doi: 10.1117/12.2510485
Show Author Affiliations
Adam Filipkowski, Institute of Electronic Materials Technology (Poland)
Rafał Kasztelanic, Institute of Electronic Materials Technology (Poland)
Univ. of Warsaw (Poland)
Hue Thi Nguyen, Institute of Electronic Materials Technology (Poland)
Hong Duc Univ. (Viet Nam)
Jaroslaw Cimek, Institute of Electronic Materials Technology (Poland)
Ryszard Stępień, Institute of Electronic Materials Technology (Poland)
Dariusz Pysz, Institute of Electronic Materials Technology (Poland)
Marek Trippenbach, Univ. of Warsaw (Poland)
Ryszard Buczynski, Institute of Electronic Materials Technology (Poland)
Univ. of Warsaw (Poland)


Published in SPIE Proceedings Vol. 10927:
Photonic and Phononic Properties of Engineered Nanostructures IX
Ali Adibi; Shawn-Yu Lin; Axel Scherer, Editor(s)

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