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Silva, T., Schoeffler, K.  M., Vieira, J., Hoshino, M., Fonseca, R. A. & Silva, L. O. (2020). Anisotropic heating and magnetic field generation due to Raman scattering in laser-plasma interactions. Physical Review Research. 2

T. Silva et al.,  "Anisotropic heating and magnetic field generation due to Raman scattering in laser-plasma interactions", in Physical Review Research, no. 2, 2020

@article{silva2020_1714738379332,
	author = "Silva, T. and Schoeffler, K.  M. and Vieira, J. and Hoshino, M. and Fonseca, R. A. and Silva, L. O.",
	title = "Anisotropic heating and magnetic field generation due to Raman scattering in laser-plasma interactions",
	journal = "Physical Review Research",
	year = "2020",
	volume = "",
	number = "2",
	doi = "10.1103/PhysRevResearch.2.023080",
	url = "https://journals.aps.org/prresearch/abstract/10.1103/PhysRevResearch.2.023080"
}

TY  - JOUR
TI  - Anisotropic heating and magnetic field generation due to Raman scattering in laser-plasma interactions
T2  - Physical Review Research
IS  - 2
AU  - Silva, T.
AU  - Schoeffler, K.  M.
AU  - Vieira, J.
AU  - Hoshino, M.
AU  - Fonseca, R. A.
AU  - Silva, L. O.
PY  - 2020
SN  - 2643-1564
DO  - 10.1103/PhysRevResearch.2.023080
UR  - https://journals.aps.org/prresearch/abstract/10.1103/PhysRevResearch.2.023080
AB  - We identify a mechanism for magnetic field generation in the interaction of intense electromagnetic waves and
underdense plasmas. We show that Raman scattered plasma waves trap and heat the electrons preferentially in
their propagation direction, resulting in a temperature anisotropy. In the trail of laser pulse, we observe magnetic
field growth that matches the Weibel mechanism due to the temperature anisotropy. We discuss the role of the
initial electron temperature in our results. The predictions are confirmed with multidimensional particle-in-cell
simulations. We show how this configuration is an experimental platform to study the long-time evolution of the
Weibel instability
ER  -