Add to ORKGAbstract: We show that phase space methods are effective in understanding wave and noise propagation in a dispersive medium. The phase space distributions we use are the Wigner distributions of position and wave number or time and frequency. In addition, we show that the Wigner distribution offers approximations that are accurate and easy to apply
The propagation of acoustic or ultrasonic pulses and waves in 1-D media with continuous inhomogeneit...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
We discuss the production of induced noise by a pulse and the propagation of the noise in a dispers...
We show that phase space methods developed for quantum mechanics, such as the Wigner distribution, c...
We show that radiation from complex and inherently random but correlated wave sources can be modelle...
Abstract. The time-frequency integrals and the two-dimensional stationary phase method are applied t...
This thesis consists of research regarding pulse and noise propagation in dispersive media. The rese...
A statistical approach based on the Wigner transform is proposed for the description of partially in...
4 pages, 2 figuresInternational audienceThe study of spatial dispersion in electromagnetic wave prop...
With a topic as general as Wave Propagation in Nonlinear Dispersive Xedia, there are two approaches ...
This monograph by a prominent Russian expert was a ground-breaking contribution to the literature on...
It has been suggested that the new generation of wireless communication, known as fifth generation (...
Diffusion is a powerful and versatile description of a typical wave propagation in a random scatteri...
We study the properties of the wavefronts induced by temporal Gaussian white noise in a subexcitable...
The propagation of acoustic or ultrasonic pulses and waves in 1-D media with continuous inhomogeneit...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
We discuss the production of induced noise by a pulse and the propagation of the noise in a dispers...
We show that phase space methods developed for quantum mechanics, such as the Wigner distribution, c...
We show that radiation from complex and inherently random but correlated wave sources can be modelle...
Abstract. The time-frequency integrals and the two-dimensional stationary phase method are applied t...
This thesis consists of research regarding pulse and noise propagation in dispersive media. The rese...
A statistical approach based on the Wigner transform is proposed for the description of partially in...
4 pages, 2 figuresInternational audienceThe study of spatial dispersion in electromagnetic wave prop...
With a topic as general as Wave Propagation in Nonlinear Dispersive Xedia, there are two approaches ...
This monograph by a prominent Russian expert was a ground-breaking contribution to the literature on...
It has been suggested that the new generation of wireless communication, known as fifth generation (...
Diffusion is a powerful and versatile description of a typical wave propagation in a random scatteri...
We study the properties of the wavefronts induced by temporal Gaussian white noise in a subexcitable...
The propagation of acoustic or ultrasonic pulses and waves in 1-D media with continuous inhomogeneit...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...