Add to ORKGWe report on our latest research in the field of spontaneous spatial fractal patterns. New analyses, results and potential applications are reported for nonlinear ring cavities and kaleidoscope laser systems
We report, for the first time, spontaneous nonlinear optical spatial fractals. The proposed generic ...
We report on research concerning spontaneous spatial fractal pattern formation in passive nonlinea...
The complex character of transverse eigenmodes in one-dimensional (1D) unstable cavity lasers has be...
Reaction-diffusion systems can exhibit a Turing instability in which homogeneous states develop larg...
We predict, for the first time to our knowledge, that purely-absorptive nonlinearity can support spo...
Nature furnishes us with a wide variety of patterns that, fundamentally, tend to fall into one of tw...
We present the first predictions of spontaneous spatial fractal patterns in nonlinear ring cavities....
Pattern emergence in Naturepsilas complex systems is mostly attributed to a classic Turing instabili...
Complexity draws on commonality of universal phenomena and brings together research in fields that a...
We report spontaneous spatial optical fractal patterns in a ring cavity containing a thin slice of d...
Abstract- Pattern emergence in Nature’s complex systems is mostly attributed to a classic Turing ins...
Spontaneous pattern formation in optical ring cavities containing a nonlinear (e.g., Kerr-type) mate...
Turing instability is the tendency of the uniform states of a system to become spontaneously pattern...
We present the first detailed account of kaleidoscope laser modes where the equivalent Fresnel numbe...
A series of significant new extensions concerning fractal light generation are reported. Firstly, we...
We report, for the first time, spontaneous nonlinear optical spatial fractals. The proposed generic ...
We report on research concerning spontaneous spatial fractal pattern formation in passive nonlinea...
The complex character of transverse eigenmodes in one-dimensional (1D) unstable cavity lasers has be...
Reaction-diffusion systems can exhibit a Turing instability in which homogeneous states develop larg...
We predict, for the first time to our knowledge, that purely-absorptive nonlinearity can support spo...
Nature furnishes us with a wide variety of patterns that, fundamentally, tend to fall into one of tw...
We present the first predictions of spontaneous spatial fractal patterns in nonlinear ring cavities....
Pattern emergence in Naturepsilas complex systems is mostly attributed to a classic Turing instabili...
Complexity draws on commonality of universal phenomena and brings together research in fields that a...
We report spontaneous spatial optical fractal patterns in a ring cavity containing a thin slice of d...
Abstract- Pattern emergence in Nature’s complex systems is mostly attributed to a classic Turing ins...
Spontaneous pattern formation in optical ring cavities containing a nonlinear (e.g., Kerr-type) mate...
Turing instability is the tendency of the uniform states of a system to become spontaneously pattern...
We present the first detailed account of kaleidoscope laser modes where the equivalent Fresnel numbe...
A series of significant new extensions concerning fractal light generation are reported. Firstly, we...
We report, for the first time, spontaneous nonlinear optical spatial fractals. The proposed generic ...
We report on research concerning spontaneous spatial fractal pattern formation in passive nonlinea...
The complex character of transverse eigenmodes in one-dimensional (1D) unstable cavity lasers has be...