Space-time wave packets propagating a kilometer in air

Abstract

We report on the diffraction-free propagation of space-time wave packets (STWPs) -- a class of propagation-invariant pulsed beams -- for \!1 km in an open-air laser range in a low-turbulence scenario. Making use of ≈\!100-fs pulses (bandwidth \!25 nm) at a wavelength of ≈\!1 μm, we construct an STWP with a transverse width of ≈\!2 mm that expands to ≈\!3 mm after \!500 m, and another that expands from ≈\!8 mm to ≈\!10 mm after 1 km. The propagation of the STWPs is compared to Gaussian wave packets of the same transverse spatial width and bandwidth. We establish a theoretical model that accounts for the significant factors limiting the STWP propagation distance and suggests the path to further extending this distance.