Add to ORKGThe Zernike polynomials are commonly used in the analysis of adaptive optics systems. Annular Zernikes are particularly useful for analyzing the aberrations of telescopes with annular pupils (e.g., Cassegrain telescopes). Choose a type of aberration and a radius of the annulus to see the resulting polynomialComponente Curricular::Educação Superior::Ciências Exatas e da Terra::Matemátic
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
It is possible to decompose the wavefront aberration by the Zernike polynomials. Through adaptive op...
The Zernike polynomials are commonly used in the analysis of adaptive optics systems. Annular Zernik...
We explain the nature of optical aberrations and how they may be represented mathematically. We desc...
We explain the nature of optical aberrations and how they may be represented\ud mathematically. We d...
Orthogonal polynomials over the interior of a unit circle are widely used in aberration theory and i...
Various authors have presented the aberration function of an optical system as a power series expans...
The orthonormal annular ellipse Zernike polynomials are important for wavefront analysis of annular ...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
It is possible to decompose the wavefront aberration by the Zernike polynomials. Through adaptive op...
The Zernike polynomials are commonly used in the analysis of adaptive optics systems. Annular Zernik...
We explain the nature of optical aberrations and how they may be represented mathematically. We desc...
We explain the nature of optical aberrations and how they may be represented\ud mathematically. We d...
Orthogonal polynomials over the interior of a unit circle are widely used in aberration theory and i...
Various authors have presented the aberration function of an optical system as a power series expans...
The orthonormal annular ellipse Zernike polynomials are important for wavefront analysis of annular ...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Various authors have presented the aberration function of an optical system as a power series expans...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
Zernike polynomials have been widely used to describe the aberrations in wavefront sensing of the ey...
It is possible to decompose the wavefront aberration by the Zernike polynomials. Through adaptive op...