However, a theoretical underpinning is yet to be established as to whether the effect of optical nonlinearity is omnipresent across different particle sizes, which we investigate here.
Atomization and Sprays
Using localized approximation of generalized Lorenz-Mie theory, we theoretically analyze the nature of force and potential and provide a detailed comparative discussion between this generalized scattering formulation with dipole scattering formulation for dielectric nanoparticles. Anita Devi 1 and Arijit K. Plots of axial trapping force top and potential bottom at mW average power under CW excitation. Line color: green, cyan, red for gradient, scattering, total force or potential; line style: solid, dashed for GLMT, dipole calculation. Plots of axial trapping force top and potential bottom at mW average power under pulsed excitation.
Plots of axial trapping force at three different average powers under pulsed excitation. Line color: green, cyan, red for gradient, scattering, total force and potential; line style: solid, dashed for GLMT, dipole calculation. Plots of axial trapping potential at three different average powers under pulsed excitation. The insets show the zoomed-in region of the bottom of the gradient potential as well.
Plots of minimum potential U min top panel and the escape potential U esc bottom panel at different average powers under pulsed excitation.
Theoretical estimation of nonlinear optical force on dielectric spherical particles of arbitrary size under femtosecond pulsed excitation Anita Devi and Arijit K. De Phys.
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A 96 , — Published 28 August Abstract Experimental evidence indicates that high-repetition-rate ultrafast pulsed excitation is more efficient in optical trapping of dielectric nanoparticles as compared with continuous-wave excitation at the same average power. It discusses in detail the methods available for evaluating beam shape coefficients describing the illuminating beam. In addition it features applications used in many fields such as optical particle sizing and, more generally, optical particle characterization, morphology-dependent resonances and the mechanical effects of light for optical trapping, optical tweezers and optical stretchers.
Furthermore, it provides various computer programs relevant to the content.
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Inhaltsverzeichnis Frontmatter Chapter 1. Hence, the starting point is Sect. FAQ Policy.
Generalized Lorenz-Mie Theories (2nd ed.)
About this book The Lorenz-Mie theory, describing the interaction between a homogeneous sphere and an electromagnetic plane wave, is likely to be one of the most famous theories in light scattering. Show all. It is self-contained and is accessible to a large variety of audiences. Show next xx.
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