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Optical trapping forces of focused circular partially coherent beams on Rayleigh particles

Yu Chaoqun, Chen Fuchang, Zeng Jun, Huang Cheng, He Zhimin, Lin Huichuan, Zhang Yongtao, Chen Ziyang, Pu Jixiong

Optica Applicata

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2022

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Vol. 52, nr 4

575--583

EN

The optical trapping forces of tightly-focused radially polarized circular partially coherent beams on Rayleigh particles are theoretically investigated. Numerical calculations are performed to study the optical trapping forces on Rayleigh particles for different initial coherent length of the incident circular partially coherent beams. The results show that the magnitude of the gradient force decreases with the reduction of the initial coherent length of the focused radially polarized circular partially coherent beams, while the balanced position (i.e., the position where the optical trapping forces becomes zero) stays constant. Moreover, the focused spot gradually elongates along the optical axis with the reduction of the initial coherent length, and the axial gradient force on Rayleigh particles also decreases gradually with the reduction of the intensity gradient in axial direction. As there exists an spherical aberrant in the focusing optical system, the focal spot in the direction of the optical axis becomes trumpet-shaped, and the optical trapping forces on Rayleigh particles change as well.

2

Analiza monochromatycznych aberracji oka w dziedzinie mocy refrakcyjnej

Iskander D. R.

Optyka

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2011

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Nr 3

50--52

PL

Większość optometrystów i okulistów nie jest dobrze zaznajomiona z pojęciami aberracji monochromatycznych i ma trudności z interpretacją własności wzrokowych oka na podstawie szeregu współczynników wielomianu Zernikego lub map aberracji frontu falowego. Z drugiej strony, są oni bardzo dobrze wyszkoleni w interpretacji mocy refrakcyjnej oka, głównie w przypadku mocy sferocylindrycznej, która określa aberracje niższego rzędu. Metody przedstawione w niniejszym artykule uogólniają koncepcję mocy refrakcyjnej oka do aberracji wyższych rzędów i przedstawiają je w postaci map refrakcyjnych wyrażanych w dioptriach. Taka reprezentacja aberracji monochromatycznych może być dla tych grup bardziej intuicyjna i zrozumiała.

EN

The majority of optometrists and ophthalmologists have difficulties interpreting monochromatic wavefront aberrations, particularly when expressed in terms of a set of Zernike polynomial coefficients or their graphic equivalents. On the other hand, they are very well trained in the interpretations of eye refractive power, particularly in the case of the spherocylindrical power that describes the aberrations of the lower order. The methods described in the paper generalise the concept of refractive power to higher order aberrations and present them in dioptric power maps. Such representation of monochromatic aberrations could prove to be more intuitive and comprehensible for those groups.

3

A new spherical aberration coefficient C4 for the Gaussian laser beam

Bencheikh A., Bouafia M., Ferria K.

Optica Applicata

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2011

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Vol. 41, nr 4

855--861

EN

Laser beam quality is related to the aberration effect. Quartic phase aberration, more commonly known as spherical aberration, can result from aberrated optical components such as beam expanding telescopes, focusing or collimating lenses, or other conventional optical elements. In general, any kind of quartic aberration will lead to increased far field beam spread, degraded laser beam focusability and increased values of the beam quality. Currently, a well established quality parameter for laser beams is the M2 factor which is proportional to the coefficient of quartic phase aberration denoted C4. In many recent papers, authors used C4 given in geometrical optics approach to evaluate the laser beam quality M2 which belongs to the Gaussian beam optics and the two disciplines are not to be confused. In this paper, we present a new mathematical set for the spherical aberration coefficient C4, especially for Gaussian beams in the context of Gaussian beam optics. A numerical analysis of a set of lenses is done to show the importance of the new C4.

4

Investigation of Novel method of spherical aberration correction for enhanced spherical hybrid reflector antennas

Ponomarev O. P.

Zeszyty Naukowe Wydziału Elektroniki i Informatyki Politechniki Koszalińskiej

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2010

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Nr 2

77--92