Add to ORKGWe present a new approach for calculating the exact electric field distribution behind a pefect high NA focussing lens with an aspheric front and spheric back surface. The obtained results are used to find the optimal shape of the lens with respect to light efficiency and polarisation dependence
The field in the entrance pupil of a high NA lens can be optimized such that, for given incident pow...
A method and computer code to design high-transmission cylindrical electrostratic lenses has been de...
Vectorial optical fields are a type of structured optical fields with inhomogeneous polarization dis...
We present a new approach for calculating the exact electric field distribution behind a pefect high...
We present a new approach for calculating the exact electric field distribution behind a perfect hig...
We present a new approach for calculating the exact electric field distribution behind a perfect hig...
Closed formulas are derived for the field in the focal region of a diffraction limited lens, such th...
We determine field distributions in the pupil of a high NA lens, that give, for a given power incide...
We present an explicit computable integral solution of the electric field generated at the focal reg...
Upper bounds on the focusing efficiency of aperture fields and lens systems are formulated using int...
This chapter describes the polarization optimized focusing of light and coupling to sub-wavelength a...
We study focused fields which, for a given total power and a given numerical aperture, have maximum ...
We provide experimental evidence supporting the vectorial theory for determining electric field at a...
When a Gaussian beam is focused by a lens, the beam is truncated by the pupil, and energy is lost. A...
Research on the properties of highly focused fields mainly involved fully polarized light, whereas p...
The field in the entrance pupil of a high NA lens can be optimized such that, for given incident pow...
A method and computer code to design high-transmission cylindrical electrostratic lenses has been de...
Vectorial optical fields are a type of structured optical fields with inhomogeneous polarization dis...
We present a new approach for calculating the exact electric field distribution behind a pefect high...
We present a new approach for calculating the exact electric field distribution behind a perfect hig...
We present a new approach for calculating the exact electric field distribution behind a perfect hig...
Closed formulas are derived for the field in the focal region of a diffraction limited lens, such th...
We determine field distributions in the pupil of a high NA lens, that give, for a given power incide...
We present an explicit computable integral solution of the electric field generated at the focal reg...
Upper bounds on the focusing efficiency of aperture fields and lens systems are formulated using int...
This chapter describes the polarization optimized focusing of light and coupling to sub-wavelength a...
We study focused fields which, for a given total power and a given numerical aperture, have maximum ...
We provide experimental evidence supporting the vectorial theory for determining electric field at a...
When a Gaussian beam is focused by a lens, the beam is truncated by the pupil, and energy is lost. A...
Research on the properties of highly focused fields mainly involved fully polarized light, whereas p...
The field in the entrance pupil of a high NA lens can be optimized such that, for given incident pow...
A method and computer code to design high-transmission cylindrical electrostratic lenses has been de...
Vectorial optical fields are a type of structured optical fields with inhomogeneous polarization dis...