Boosting radio frequency radiation with collisional processes in picosecond laser filamentation

Author:

Thornton E.1ORCID,Garrett T.2ORCID,Elle J.2ORCID

Affiliation:

1. Physics Department, University of North Texas 1 , Denton, Texas 76201, USA

2. Air Force Research Laboratory, Directed Energy Directorate 2 , Albuquerque, New Mexico 87123, USA

Abstract

When focused in air, ultrashort pulse lasers generate a plasma that produces ultrabroadband radio frequency (RF) radiation via both ponderomotive and plasma wake field current mechanisms. We have performed experiments with high energy pulses and pulse durations up to 5 ps, while holding the power constant. These longer pulses drive much higher electron densities and temperatures, especially as collisional processes become important, and we in turn have measured substantially increased RF generation. We have also developed a Drude numerical model of the ionization within the laser pulse, the heating due to collisions, and the ensuing current density evolution. We find that the low frequency scaling of the simulated current matches the experimental data, which indicates that the ponderomotive currents dominate the RF generation for these atmospheric pressure plasmas. However, the experimentally measured spectra also show an additional low frequency (1–10 GHz) component that grows with laser pulse length, which is consistent with the plasma wake surface wave RF also becoming important as the plasma temperature approaches 100 eV.

Funder

Air Force Office of Scientific Research

Publisher

AIP Publishing

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