International audienceStructured light has revolutionized optical particle manipulation, nano-scaled material processing , and high-resolution imaging. In particular, propagation-invariant light fields such as Bessel, Airy, or Mathieu beams show high robustness and have a self-healing nature. To generalize such beneficial features, these light fields can be understood in terms of caustics. However, only simple caustics have found applications in material processing, optical trapping , or cell microscopy. Thus, these technologies would greatly benefit from methods to engineer arbitrary intensity shapes well beyond the standard families of caustics. We introduce a general approach to arbitrarily shape propagation-invariant beams by smart beam...
We employed caustic theory to analyze the propagation dynamics of partially coherent self-accelerati...
International audienceWe report the observation of arbitrary accelerating beams (ABs) designed using...
Due to their unique ability to maintain an intensity distribution upon propagation, non-diffracting ...
International audienceStructured light has revolutionized optical particle manipulation, nano-scaled...
Caustics are captivating light patterns created by materials focusing or diverting light by refracti...
We study curved trajectory dynamics and design in discrete array settings. We find that beams with p...
We propose a novel system for designing and manufacturing surfaces that produce desired caustic imag...
International audienceWe generate arbitrary convex accelerating beams by direct application of an ap...
Inverse caustic problem, that is computing the geometry of a reflector and/or refractor based on a g...
Figure 1: Designing caustics: the photograph shows an aluminum piece that was optimized such that, w...
A full propagation analysis on both fold-type and cusp-type caustic optical beams under various setu...
A controllable manipulation of the energy distribution of caustic beams possessing rectangular symme...
We propose a simple yet efficient method for generating abruptly autofocusing optical beams with arb...
Figure 1: Caustic Brain: Our algorithm computes a 3D surface that refracts uniform light to focus on...
Caustic optical beams arising from a spectral phase whose power lies in an unusual range of values l...
We employed caustic theory to analyze the propagation dynamics of partially coherent self-accelerati...
International audienceWe report the observation of arbitrary accelerating beams (ABs) designed using...
Due to their unique ability to maintain an intensity distribution upon propagation, non-diffracting ...
International audienceStructured light has revolutionized optical particle manipulation, nano-scaled...
Caustics are captivating light patterns created by materials focusing or diverting light by refracti...
We study curved trajectory dynamics and design in discrete array settings. We find that beams with p...
We propose a novel system for designing and manufacturing surfaces that produce desired caustic imag...
International audienceWe generate arbitrary convex accelerating beams by direct application of an ap...
Inverse caustic problem, that is computing the geometry of a reflector and/or refractor based on a g...
Figure 1: Designing caustics: the photograph shows an aluminum piece that was optimized such that, w...
A full propagation analysis on both fold-type and cusp-type caustic optical beams under various setu...
A controllable manipulation of the energy distribution of caustic beams possessing rectangular symme...
We propose a simple yet efficient method for generating abruptly autofocusing optical beams with arb...
Figure 1: Caustic Brain: Our algorithm computes a 3D surface that refracts uniform light to focus on...
Caustic optical beams arising from a spectral phase whose power lies in an unusual range of values l...
We employed caustic theory to analyze the propagation dynamics of partially coherent self-accelerati...
International audienceWe report the observation of arbitrary accelerating beams (ABs) designed using...
Due to their unique ability to maintain an intensity distribution upon propagation, non-diffracting ...