Particle assisted structuring on metallic substrate: Anomaly when particle size exceeds irradiation wavelength

Sugathan, Bijoy; Nilaya, J. Padma; Pillai, V. P. Mahadevan; Biswas, Dhruba J.

doi:10.1063/1.5109316

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…We believe that new insights will be delivered through the development of related fields and expect that the future research into dielectric mesophotonics will offer new opportunities leading to novel unusual applications of photonics. In particular, the effects considered above make it possible to explain the anomalous crater during laser nanostructuring of the surface with the help of particles with parameter q~2π [178]. A combination of the mesoscale particle concept with materials with nonlinear properties will be promising and attractive.…”

Section: Discussionmentioning

confidence: 99%

Optical Phenomena in Mesoscale Dielectric Particles

Minin

2021

Photonics

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During the last decade, new unusual physical phenomena have been discovered in studying the optics of dielectric mesoscale particles of an arbitrary three-dimensional shape with the Mie size parameter near 10 (q~10). The paper provides a brief overview of these phenomena from optics to terahertz, plasmonic and acoustic ranges. The different particle configurations (isolated, regular or Janus) are discussed, and the possible applications of such mesoscale structures are briefly reviewed herein in relation to the field enhancement, nanoparticle manipulation and super-resolution imaging. The number of interesting applications indicates the appearance of a new promising scientific direction in optics, terahertz and acoustic ranges, and plasmonics. This paper presents the authors’ approach to these problems.

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Section: Discussionmentioning

confidence: 99%

Optical Phenomena in Mesoscale Dielectric Particles

Minin

2021

Photonics

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Overcoming refractive index limit of mesoscale light focusing by means of specular-reflection photonic nanojet

2020

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The physical origin of subwavelength photonic nanojet in specular-reflection mode ( s -PNJ) is theoretically considered. This specific type of photonic nanojet (PNJ) emerges upon double focusing of a plane optical wave by a transparent dielectric microparticle located near a flat mirror. For the first time, to the best of our knowledge, we report a unique property of s -PNJ for increasing its focal length and intensity using circular-shaped microparticles with a refractive index ratio exceeding the known limiting value that fundamentally distinguishes s -PNJ from regular PNJ behavior. This may drastically increase the trapping potential of PNJ-based optical tweezers.

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