A holographic technique is presented that increases the flux-transfer efficiency of laser speckle generation by a factor of 100 over the integrating sphere method. This makes a wider range of low-power lasers usable for the speckle MTF test method, and increases the number of wavelengths at which the test can be applied
Linear and binary holograms for use in heterodyne detection with 10.6 micron imaging arrays are desc...
Application is the determination of the Modulation Transfer Function (MTF) for linear detector array...
In order to produce future generation micro-projection systems that can function independently or in...
A holographic technique is presented that increases the flux-transfer efficiency of laser speckle ge...
Laser Speckle is the optical phenomena resulting from the random interference of coherent light. Thi...
The increased complexity of imaging sensors and total number of discrete detector sites has challeng...
This paper presents a method for measuring the modulation transfer function (MTF) of a detector arra...
Spatial-frequency filtering of laser-speckle patterns has proved to be a useful tool in the measurem...
A new method for generation of laser speckle, by using an integrating sphere, is investigated. This ...
A new method has been developed to measure the modulation transfer function (MTF) of an array out to...
The design of an aperture for the generation of laser speckle with a flat power spectrum covering a ...
In this paper, a holographic system to suppress the speckle noise is proposed. Two spatial light mod...
We present a comparative study between two experimental methods to determine the modulation transfer...
Speckle noise is an integral part of any laser projection display because it is the nature of laser ...
We have experimentally investigated the MTF of a scientific grade CCD, especially considering its be...
Linear and binary holograms for use in heterodyne detection with 10.6 micron imaging arrays are desc...
Application is the determination of the Modulation Transfer Function (MTF) for linear detector array...
In order to produce future generation micro-projection systems that can function independently or in...
A holographic technique is presented that increases the flux-transfer efficiency of laser speckle ge...
Laser Speckle is the optical phenomena resulting from the random interference of coherent light. Thi...
The increased complexity of imaging sensors and total number of discrete detector sites has challeng...
This paper presents a method for measuring the modulation transfer function (MTF) of a detector arra...
Spatial-frequency filtering of laser-speckle patterns has proved to be a useful tool in the measurem...
A new method for generation of laser speckle, by using an integrating sphere, is investigated. This ...
A new method has been developed to measure the modulation transfer function (MTF) of an array out to...
The design of an aperture for the generation of laser speckle with a flat power spectrum covering a ...
In this paper, a holographic system to suppress the speckle noise is proposed. Two spatial light mod...
We present a comparative study between two experimental methods to determine the modulation transfer...
Speckle noise is an integral part of any laser projection display because it is the nature of laser ...
We have experimentally investigated the MTF of a scientific grade CCD, especially considering its be...
Linear and binary holograms for use in heterodyne detection with 10.6 micron imaging arrays are desc...
Application is the determination of the Modulation Transfer Function (MTF) for linear detector array...
In order to produce future generation micro-projection systems that can function independently or in...