|
DIFFRACTIVE OPTICS, OPTICAL TECHNOLOGIES
Surface roughness influence on photonic nanojet parameters of dielectric microspheres
Yu. E. Geints, E. K. Panina Institute of Atmospheric Optics, Siberian Branch of the Russian Academy of Science, Tomsk
Abstract:
All naturally found and technologically fabricated solid microparticles possess surface roughness. Upon optical wave scattering from such particles, in addition to its geometric shape, the surface relief becomes an important morphological factor determining the optical properties of the scatterer. We present results of the numerical 3D-simulations of focusing an optical wave with a dielectric microsphere with randomly distributed surface roughness. We address different cases of azimuthally symmetric and asymmetric distortions of the particle surface. We show that the key parameters of the near-field focal region (intensity, longitudinal and transverse dimensions) referred to as a photonic nanojet (PNJ) are sensitive to changes in the microsphere surface texture. Two important PNJ parameters, the peak intensity and the longitudinal length, are subject to more prominent changes. The influence of the optical contrast (relative refractive index) of the microsphere on PNJ parameters is investigated in detail. The possibility of reducing the influence of sur-face roughness on the near-field focusing strength by microsphere watering (water-uptake) is demonstrated.
Keywords:
photonic nanojet, dielectric microsphere, near-field focusing, surface roughness
Received: 17.01.2023 Accepted: 31.01.2023
Citation:
Yu. E. Geints, E. K. Panina, “Surface roughness influence on photonic nanojet parameters of dielectric microspheres”, Computer Optics, 47:4 (2023), 559–566
Linking options:
https://www.mathnet.ru/eng/co1155 https://www.mathnet.ru/eng/co/v47/i4/p559
|
Statistics & downloads: |
Abstract page: | 20 | Full-text PDF : | 11 | References: | 8 |
|