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Magnetic field inside the metal induced by anisotropic electronic pressure

We show theoretically that anisotropy of electronic distribution function inside the laser-irradiated metal leads to the formation of edge currents at the timescale of distribution isotropization. When the electronic pressure in the skin-layer is anisotropic, pressure gradient appears to be non-potential force effectively producing low-frequency magnetic field. In typical experiments with femtosecond laser pumping generated internal magnetic field can rich magnitude up to ~1 Tesla in non-damaging interaction regime. We demonstrate that this field is localized inside the metal, while just a minor part of its energy can be radiated into free space as a sub-terahertz signal.

preprint2020arXivOpen access
I. V. OladyshkinD. A. FadeevV. A. Mironov
physics.plasm-phcond-mat.otherphysics.optics
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I. V. OladyshkinD. A. FadeevV. A. Mironov

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