Reversal of laser wake phase velocity generates high-power broadband Cherenkov signal

Kalmykov, Serguei Y.; Elle, Jennifer; Schmitt-Sody, Andreas

doi:10.1088/1361-6587/abe83c

Cited by 3 publications

(1 citation statement)

References 44 publications

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“…Mention, the phase velocity passes through a singlularity at τ = L/c, then reverses and becomes negative afterwards. It has been recently shown that this reversal can be used to generate high-power broadband Cherenkov signal [23]. Here, instead we discuss a narrow band emission at plasma frequency harmonics.…”

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confidence: 99%

Efficient narrowband teraherz radiation from electrostatic wakefields in non-uniform plasmas

Pukhov,

Golovanov,

Kostyukov

2021

Preprint

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It is shown that electrostatic plasma wakefields can efficiently radiate at harmonics of the plasma frequency when the plasma has a positive density gradient along the propagation direction of a driver. The driver propagating at a sub-luminal group velocity excites the plasma wakefield with the same phase velocity. However, due to the positive density gradient, the wake phase velocity steadily increases behind the driver. As soon as the phase velocity becomes super-luminal, the electrostatic wakefield couples efficiently to radiative electromagnetic modes. The period of time when the phase velocity stays above the speed of light depends on the density gradient scale length.The wake radiates at well-defined harmonics of the plasma frequency in the teraherz (THz) band. The angle of emission depends on the gradient scale and the time passed behind the driver. For appropriate plasma and driver parameters, the wake can radiate away nearly all its energy, which potentially results in an efficient, narrow band and tunable source of THz radiation.

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confidence: 99%