Add to ORKGWe report the first observation of Airy optical beams. This intriguing class of wave packets, initially predicted by Berry and Balazs in 1979, has been realized in both one- and two-dimensional configurations. As demonstrated in our experiments, these Airy beams can exhibit unusual features such as the ability to remain diffraction-free over long distances while they tend to freely accelerate during propagation. © 2007 The American Physical Society
We report the first observation of self-reconstructing Airy optical beams. It is demonstrated that t...
Although diffractive spreading is an unavoidable feature of all wave phenomena, certain waveforms ca...
Using hyperbolic rotations, we show that a new class of skewed, nonspreading, accelerating Airy wave...
We report the first observation of Airy optical beams. This intriguing class of wave packets, initia...
We report the first observation of Airy optical beams. This intriguing class of wave packets, initia...
Airy beams are a new class of nondiffracting beam predicted in 1979 and observed in 2007. Beam propa...
The force-free Schrödinger equation can exhibit a non-spreading Airy wavepacket solution, which has ...
We investigate the acceleration dynamics of quasi-diffraction-free Airy beams in both one- and two-d...
We investigate the acceleration dynamics of quasi-diffraction-free Airy beams in both one- and two-d...
Over the years, non-spreading or non-diffracting wave configurations have been systematically invest...
We demonstrate experimentally that Airy beams can perform ballistic dynamics in a way totally analog...
The common intuition of light propagating along a straight path was challenged by the discovery of t...
We report the first observation of accelerating parabolic beams. These accelerating parabolic beams ...
The phase behavior of Airy beams is studied, and their Gouy phase is defined. Analytic expressions f...
The field of plasmonics experiences an explosive growth with a number of developing applications in ...
We report the first observation of self-reconstructing Airy optical beams. It is demonstrated that t...
Although diffractive spreading is an unavoidable feature of all wave phenomena, certain waveforms ca...
Using hyperbolic rotations, we show that a new class of skewed, nonspreading, accelerating Airy wave...
We report the first observation of Airy optical beams. This intriguing class of wave packets, initia...
We report the first observation of Airy optical beams. This intriguing class of wave packets, initia...
Airy beams are a new class of nondiffracting beam predicted in 1979 and observed in 2007. Beam propa...
The force-free Schrödinger equation can exhibit a non-spreading Airy wavepacket solution, which has ...
We investigate the acceleration dynamics of quasi-diffraction-free Airy beams in both one- and two-d...
We investigate the acceleration dynamics of quasi-diffraction-free Airy beams in both one- and two-d...
Over the years, non-spreading or non-diffracting wave configurations have been systematically invest...
We demonstrate experimentally that Airy beams can perform ballistic dynamics in a way totally analog...
The common intuition of light propagating along a straight path was challenged by the discovery of t...
We report the first observation of accelerating parabolic beams. These accelerating parabolic beams ...
The phase behavior of Airy beams is studied, and their Gouy phase is defined. Analytic expressions f...
The field of plasmonics experiences an explosive growth with a number of developing applications in ...
We report the first observation of self-reconstructing Airy optical beams. It is demonstrated that t...
Although diffractive spreading is an unavoidable feature of all wave phenomena, certain waveforms ca...
Using hyperbolic rotations, we show that a new class of skewed, nonspreading, accelerating Airy wave...