Add to ORKGWe experimentally and theoretically investigate optical beam propagation in nonlinear refractive materials having a thickness greater than the depth of focus of the input beam (i.e., internal self-action). A simple model based on the constant shape approximation is adequate for analyzing the propagation of laser beams within such media under most conditions. In a tight focus geometry, we find that the position of the sample with respect to the focal plane, z, is an important parameter in the fluence limiting characteristics of the output. The behavior with z allows us to perform a thick sample Z-scan from which we can determine the sign and magnitude of the nonlinear refraction index. In CS2, we have used this method to independently me...
We study the nonlinear refraction of x rays in highly ionized condensed matter by using a classical ...
Summary form only given. Passive optical limiting results from irradiance-dependent nonlinear optica...
Propagation of an externally focused or defocused Gaussian beam in a cubically nonlinear material is...
We experimentally and theoretically investigate optical beam propagation in nonlinear refractive mat...
A simple, highly sensitive method is proposed for studying nonlinear refraction in materials. In a t...
Passive optical limiting based on nonlinear refraction in a “thick” medium is analyzed using a simpl...
We implement numerical modeling of high-energy laser-pulse propagation through bulk nonlinear optica...
The refractive and absorptive response of a nonlinear material can be assessed by the use of a spati...
Nonlinear refractive dynamics of CS2 are measured with the beam deflection technique. A response fun...
We describe methods for measuring the nonlinear refraction of nominally transparent materials that i...
We determine the threshold power for self-focusing collapse both in a bulk medium and in a hollow-co...
The propagation of optical beams and pulses under the influence of nonlinear effects is characterize...
We describe methods for measuring the nonlinear refraction of nominally transparent materials that i...
A novel numerical finite difference beam propagation method developed for quadratic refractive index...
Material processing using high-intensity femtosecond (fs) laser pulses is a fast developing technolo...
We study the nonlinear refraction of x rays in highly ionized condensed matter by using a classical ...
Summary form only given. Passive optical limiting results from irradiance-dependent nonlinear optica...
Propagation of an externally focused or defocused Gaussian beam in a cubically nonlinear material is...
We experimentally and theoretically investigate optical beam propagation in nonlinear refractive mat...
A simple, highly sensitive method is proposed for studying nonlinear refraction in materials. In a t...
Passive optical limiting based on nonlinear refraction in a “thick” medium is analyzed using a simpl...
We implement numerical modeling of high-energy laser-pulse propagation through bulk nonlinear optica...
The refractive and absorptive response of a nonlinear material can be assessed by the use of a spati...
Nonlinear refractive dynamics of CS2 are measured with the beam deflection technique. A response fun...
We describe methods for measuring the nonlinear refraction of nominally transparent materials that i...
We determine the threshold power for self-focusing collapse both in a bulk medium and in a hollow-co...
The propagation of optical beams and pulses under the influence of nonlinear effects is characterize...
We describe methods for measuring the nonlinear refraction of nominally transparent materials that i...
A novel numerical finite difference beam propagation method developed for quadratic refractive index...
Material processing using high-intensity femtosecond (fs) laser pulses is a fast developing technolo...
We study the nonlinear refraction of x rays in highly ionized condensed matter by using a classical ...
Summary form only given. Passive optical limiting results from irradiance-dependent nonlinear optica...
Propagation of an externally focused or defocused Gaussian beam in a cubically nonlinear material is...