Physics

Laser Light Makes a Comeback (Literally): New Phenomenon Discovered

Reciprocating Propagation of Laser Pulse Intensity

Schematic of reciprocating propagation of laser pulse intensity at different observation times Credit: Osaka University

Researchers from Osaka University discover phenomenon of reciprocating propagation of laser pulse intensity in free space.

Straight-line constant-speed propagation in free space is a basic characteristic of light. In a recent study published in Communications Physics, researchers from Osaka University discovered the phenomenon of reciprocating propagation of laser pulse intensity in free space.

Spatiotemporal couplings have been recently used to produce light with tunable group-velocity, direction, and trajectory in free space. For example, the flying focus (a moving laser pulse intensity in the extended Rayleigh length), where longitudinal chromatism and temporal chirp are combined to control the spectrum-dependent focus-separation in space and spectrum-dependent pulse-location in time, respectively, has arbitrarily tunable propagating group-velocity and direction in space and time.

However, in the previous result, the flying focus can only propagate along a certain direction either forward or backward, although the propagating group-velocity can be freely controlled.

In this study, by dramatically increasing the Rayleigh length in space and the temporal chirp in time, the newly created flying focus propagates along a reciprocating straight-line trajectory in free space. A clear reciprocating flying focus with a high spatial resolution is also possible by further increasing the temporal chirp.

“The newly created flying focus propagates along the longitudinal axis first forward, then backward, and lastly forward again, showing a reciprocating straight-line trajectory in space and time. The forward-propagating velocity is the light speed in the vacuum, while the backward-propagating velocity is subluminal,” explains corresponding author Zhaoyang Li.

This intriguing phenomenon changes the traditional understanding of light propagation and may be applied in both fundamental and applied physics.

“For example, in our radiation pressure simulation, it can produce an on-axis reciprocating trapping or pushing force for a small or big sphere, respectively, in the Rayleigh scattering regime,” says Zhaoyang Li.

Reference: “Reciprocating propagation of laser pulse intensity in free space” by Zhaoyang Li, Yanjun Gu and Junji Kawanaka, 4 May 2021, Communications Physics.
DOI: 10.1038/s42005-021-00590-8

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