A technique for decomposing the Optical Transfer Function (OTF) into a novel set of basis functions has been developed. The decomposition provides insight into the performance of optical systems containing both wavefront error and apodization, as well as the interactions between the various components of the pupil function. Previously, this technique has been applied to systems with circular pupils with both uniform illumination and Gaussian apodization. Here, systems with annular pupils are explored. In cases of annular pupil with simple defocus, analytic expressions for the OTF decomposition coefficients can be calculated. The annular case is not only applicable to optical systems with central obscurations, but the technique can be extend...
The Optical system performance is characterized by the modulus and the phase of the amplitude impuls...
We have studied several pupil sampling patterns for calculating the optical transfer function corres...
The Point Spread Function (PSF) indirectly encodes the wavefront aberrations of an optical system an...
The imaging characteristics of systems with annular pupils is studied. The aberration-free Point-Spr...
Quadratic pupils representing Gaussian apodization and defocus are expanded into Zernike polynomials...
We propose systems of orthogonal functions qn to represent optical transfer functions (OTF) characte...
The optical transfer function (OTF) is used in describing imaging systems in the Fourier domain. So ...
The theory of wavefront analysis of a noncircular wavefront is given and applied for a systematic co...
Two-dimensional optical transfer functions (OTF's) of individual human eyes are computed from the re...
Orthogonal polynomials over the interior of a unit circle are widely used in aberration theory and i...
We investigated reduction of the size of the illuminated beam in the focal region produced by the op...
This paper reviews, completes and extends the existing optics literature on bounds for optical trans...
In some technological applications, optical systems that produce a high depth of focus and superreso...
In a recent paper, we compared the diffraction and geometrical optical transfer functions (OTFs) of ...
The optical transfer function (OTF) is widely used to compare the performance of different optical s...
The Optical system performance is characterized by the modulus and the phase of the amplitude impuls...
We have studied several pupil sampling patterns for calculating the optical transfer function corres...
The Point Spread Function (PSF) indirectly encodes the wavefront aberrations of an optical system an...
The imaging characteristics of systems with annular pupils is studied. The aberration-free Point-Spr...
Quadratic pupils representing Gaussian apodization and defocus are expanded into Zernike polynomials...
We propose systems of orthogonal functions qn to represent optical transfer functions (OTF) characte...
The optical transfer function (OTF) is used in describing imaging systems in the Fourier domain. So ...
The theory of wavefront analysis of a noncircular wavefront is given and applied for a systematic co...
Two-dimensional optical transfer functions (OTF's) of individual human eyes are computed from the re...
Orthogonal polynomials over the interior of a unit circle are widely used in aberration theory and i...
We investigated reduction of the size of the illuminated beam in the focal region produced by the op...
This paper reviews, completes and extends the existing optics literature on bounds for optical trans...
In some technological applications, optical systems that produce a high depth of focus and superreso...
In a recent paper, we compared the diffraction and geometrical optical transfer functions (OTFs) of ...
The optical transfer function (OTF) is widely used to compare the performance of different optical s...
The Optical system performance is characterized by the modulus and the phase of the amplitude impuls...
We have studied several pupil sampling patterns for calculating the optical transfer function corres...
The Point Spread Function (PSF) indirectly encodes the wavefront aberrations of an optical system an...