The optical transfer function (OTF) is widely used to compare the performance of different optical systems. Conventionally, the OTF is normalized to unity for zero spatial frequency, but in some cases it is better to consider the unnormalized OTF, which gives the absolute value of the image signal. Examples are in confocal microscopy and image scanning microscopy, where the signal level increases with pinhole or array size. Comparison of the respective unnormalized OTFs gives useful insight into their relative performance. The significance of other properties of the general OTF is discussed
The fast Fourier transform is used in two-dimensions to calculate the apodizing effect of a center o...
The optical transfer function (OTF) is used in describing imaging systems in the Fourier domain. So ...
AbstractA novel technique for calculating the visual optical modulation transfer function (OMTF) is ...
The optical transfer function (OTF) is widely used to compare the performance of different optical s...
The optical transfer function (OTF) has proved to be a highly valuable aid in comparing and evaluati...
The optical transfer function (OTF), as an objective measure of the quality of optical and electro-o...
One of the fundamental limits of classical optical microscopy is the diffraction limit of optical re...
The design of optical transfer function (OTF) is of significant importance for optical information p...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
A study was performed to compare two methods of measuring the Optical Transfer Function (OTF), namel...
The optical transfer function (OTF) and its modulus, the modulation transfer function (MTF), are wid...
We propose systems of orthogonal functions qn to represent optical transfer functions (OTF) characte...
Signal quality in an optical storage device greatly depends on the optical system transfer function ...
Optical transfer functions are presented for the 4pi' microscope. The effects of the size of the con...
In a recent paper, we compared the diffraction and geometrical optical transfer functions (OTFs) of ...
The fast Fourier transform is used in two-dimensions to calculate the apodizing effect of a center o...
The optical transfer function (OTF) is used in describing imaging systems in the Fourier domain. So ...
AbstractA novel technique for calculating the visual optical modulation transfer function (OMTF) is ...
The optical transfer function (OTF) is widely used to compare the performance of different optical s...
The optical transfer function (OTF) has proved to be a highly valuable aid in comparing and evaluati...
The optical transfer function (OTF), as an objective measure of the quality of optical and electro-o...
One of the fundamental limits of classical optical microscopy is the diffraction limit of optical re...
The design of optical transfer function (OTF) is of significant importance for optical information p...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
A study was performed to compare two methods of measuring the Optical Transfer Function (OTF), namel...
The optical transfer function (OTF) and its modulus, the modulation transfer function (MTF), are wid...
We propose systems of orthogonal functions qn to represent optical transfer functions (OTF) characte...
Signal quality in an optical storage device greatly depends on the optical system transfer function ...
Optical transfer functions are presented for the 4pi' microscope. The effects of the size of the con...
In a recent paper, we compared the diffraction and geometrical optical transfer functions (OTFs) of ...
The fast Fourier transform is used in two-dimensions to calculate the apodizing effect of a center o...
The optical transfer function (OTF) is used in describing imaging systems in the Fourier domain. So ...
AbstractA novel technique for calculating the visual optical modulation transfer function (OMTF) is ...