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Badiali, C., Almeida, R., Malaca, B., Fonseca, R., Silva, T. & Vieira, J. (2026). Tailored laser wakefield acceleration for decaying particles. Physical Review Research. 8 (2)
C. Badiali et al., "Tailored laser wakefield acceleration for decaying particles", in Physical Review Research, vol. 8, no. 2, 2026
@article{badiali2026_1784166618865,
author = "Badiali, C. and Almeida, R. and Malaca, B. and Fonseca, R. and Silva, T. and Vieira, J.",
title = "Tailored laser wakefield acceleration for decaying particles",
journal = "Physical Review Research",
year = "2026",
volume = "8",
number = "2",
doi = "10.1103/1pp8-qx35",
url = "https://journals.aps.org/prresearch/"
}
TY - JOUR TI - Tailored laser wakefield acceleration for decaying particles T2 - Physical Review Research VL - 8 IS - 2 AU - Badiali, C. AU - Almeida, R. AU - Malaca, B. AU - Fonseca, R. AU - Silva, T. AU - Vieira, J. PY - 2026 SN - 2643-1564 DO - 10.1103/1pp8-qx35 UR - https://journals.aps.org/prresearch/ AB - We introduce a plasma wakefield acceleration scheme capable of boosting initially subrelativistic particles to relativistic velocities within millimeter-scale distances. A subluminal light pulse drives a wake whose velocity is continuously matched to the beam speed through a tailored plasma density, thereby extending the dephasing length. We develop a theoretical model that is generalizable across particle mass, initial velocity, and the particular accelerating bucket being used, and we verify its accuracy with particle-in-cell simulations using laser drivers with energies in the joule range. ER -
English