Add to ORKGWe determine the amount of power of a focused axially symmetric flattened Gaussian beam that falls on a circle of given radius centered on the optical axis. We show that, within the paraxial approximation, such quantity can be exactly evaluated for any choice of the beam parameters by means of a recursive formula and give numerical examples
By expanding the hard aperture function into a finite sum of complex Gaussian functions, some approx...
The propagation of flat-topped beams passing through paraxial ABCD optical system is investigated ba...
Highly focused beams are applicable in many areas, such as optical particle trapping, particle accel...
We determine the amount of power of a focused axially symmetric flattened Gaussian beam that falls o...
We study the three-dimensional field distribution of a focused axially symmetric flattened Gaussian ...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
When a Gaussian beam is focused by a lens, the beam is truncated by the pupil, and energy is lost. A...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
A new superposition scheme for representing flattened Gaussian (FG) beams is proposed. Such a repres...
The phenomenon of focal shift is studied for the case of focused coherent beams showing a flat-toppe...
A simple method is presented which, when incorporated into a simple symbolic computation code, can b...
The vector wave equation for electromagnetic waves, when subject to a number of constraints correspo...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
A closed-form propagation equation of Hermite-cosh-Gaussian beams passing through an unapertured thi...
A family of closed form expressions for the scalar field of strongly focused Gaussian beams in oblat...
By expanding the hard aperture function into a finite sum of complex Gaussian functions, some approx...
The propagation of flat-topped beams passing through paraxial ABCD optical system is investigated ba...
Highly focused beams are applicable in many areas, such as optical particle trapping, particle accel...
We determine the amount of power of a focused axially symmetric flattened Gaussian beam that falls o...
We study the three-dimensional field distribution of a focused axially symmetric flattened Gaussian ...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
When a Gaussian beam is focused by a lens, the beam is truncated by the pupil, and energy is lost. A...
Flattened Gaussian beams are characterized by a waist profile that passes in a continuous way from a...
A new superposition scheme for representing flattened Gaussian (FG) beams is proposed. Such a repres...
The phenomenon of focal shift is studied for the case of focused coherent beams showing a flat-toppe...
A simple method is presented which, when incorporated into a simple symbolic computation code, can b...
The vector wave equation for electromagnetic waves, when subject to a number of constraints correspo...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
A closed-form propagation equation of Hermite-cosh-Gaussian beams passing through an unapertured thi...
A family of closed form expressions for the scalar field of strongly focused Gaussian beams in oblat...
By expanding the hard aperture function into a finite sum of complex Gaussian functions, some approx...
The propagation of flat-topped beams passing through paraxial ABCD optical system is investigated ba...
Highly focused beams are applicable in many areas, such as optical particle trapping, particle accel...