We present a novel technique for particle sizing based on recent studies about the statistical information contained within the light intensity distribution close to a disordered sample. We show that it is much simpler and more robust than the traditional light scattering methods and any imaging technique. Applications to optical diagnostics, process monitoring and pollution monitoring are expected. In principle, since the basic phenomenon is wavelength independent, radiation other than visible light can be used
This paper presents the problem of light scattering in particle sizing in a totally different appro...
This paper presents the results of an experimental investigation into the importance of illumination...
A new method is introduced to improve the accuracy of sizing large particles in two-phase flows. Thi...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles....
This paper presents the problem of light scattering in particle sizing in a totally different appro...
This paper presents the problem of light scattering in particle sizing in a totally different appro...
This paper presents the results of an experimental investigation into the importance of illumination...
A new method is introduced to improve the accuracy of sizing large particles in two-phase flows. Thi...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing based on recent studies about the statistical infor...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles,...
We present a novel technique for particle sizing, based on recent studies about near field speckles....
This paper presents the problem of light scattering in particle sizing in a totally different appro...
This paper presents the problem of light scattering in particle sizing in a totally different appro...
This paper presents the results of an experimental investigation into the importance of illumination...
A new method is introduced to improve the accuracy of sizing large particles in two-phase flows. Thi...