Kinetic Model Evaluation of Dynamical Properties of Nanaorod Antennas Embedded in a Polymer Carrying the Nuclei of Fusion Fuel

Kinetic Model Evaluation of Dynamical Properties of Nanaorod Antennas Embedded in a Polymer Carrying the Nuclei of Fusion Fuel

Recently laser induced fusion with simultaneous volume ignition, a spin-off from relativistic heavy ion collisions, was proposed, where implanted nanoantennas regulated and amplified the light absorption in the fusion target. Studies of resilience of the nanoantennas was published recently in vacuum...

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Veröffentlicht in:arXiv.org 2022-12
Hauptverfasser: Papp, István, Bravina, Larissa, Csete, Mária, Kumari, Archana, Mishustin, Igor N, Motornenko, Anton, Rácz, Péter, Satarov, Leonid M, Stöcker, Horst, Strottman, Daniel D, Szenes, András, Vass, Dávid, Ágnes Nagyné Szokol, Kámán, Judit, Bonyár, Attila, Biró, Tamás S, Csernai, László P, Kroó, Norbert, part of NAPLIFE Collaboration
Format: Artikel
Sprache:eng
Schlagworte:
Electromagnetic absorption
Heavy ions
Ionic collisions
Polymers
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Zusammenfassung:Recently laser induced fusion with simultaneous volume ignition, a spin-off from relativistic heavy ion collisions, was proposed, where implanted nanoantennas regulated and amplified the light absorption in the fusion target. Studies of resilience of the nanoantennas was published recently in vacuum. These studies are extended to nanoantennas embedded into a polymer, which modifies the nanoantenna's lifetime and absorption properties.
ISSN:2331-8422