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--- Hot carrier generation in plasmonic nanoparticles --- Date: 28 February 2024 Location: Department of Materials, Imperial College London Developers: Hanwen Jin, Simão Meneses João This code offers a set of tools to help in the study of the plasmonic properties of nanoparticles of different shapes and materials. It is able to compute the rate of hot carrier generation using Fermi's golden rule and the population distribution after relaxation effects are taken into account, using Govorov's formula. The electric field is taken into account using the quasi-static approximation. It is also able to compute the density of states and band structure of all the specified materials. Currently supported shapes are cubes, octahedra, rhombic dodecahedra and spheres. Currently supported materials are gold, aluminium and palladium. The hot carrier generation, population distribution and density of states are calculated via a Chebyshev decomposition of the operators. See the documentation (doc) for an explanation of the code. See the examples folder for executable examples.
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Tools to help study and analyze the hot carrier generation and relaxation in plasmonic nanoparticles
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