Unravelling the secrets of the resistance of GaN to strongly ionising radiation
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Sequeira, Miguel C.
Mattei, Jean-Gabriel
Vazquez, Henrique
Djurabekova, Flyura
Nordlund, Kai
Monnet, Isabelle
Mota-Santiago, Pablo
Kluth, Patrick
Grygiel, Clara
Zhang, Shuo
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Nature Publishing Group
Abstract
GaN is the most promising upgrade to the traditional Si-based radiation-hard technologies. However, the underlying mechanisms driving its resistance are unclear, especially for strongly ionising radiation. Here, we use swift heavy ions to show that a strong recrystallisation effect induced by the ions is the key mechanism behind the observed resistance. We use atomistic simulations to examine and predict the damage evolution. These show that the recrystallisation lowers the expected damage levels significantly and has strong implications when studying high fluences for which numerous overlaps occur. Moreover, the simulations reveal
structures such as point and extended defects, density gradients and voids with excellent agreement between simulation and experiment. We expect that the developed modelling scheme will contribute to improving the design and test of future radiation-resistant GaNbased devices.
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Communications Physics
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Open Access
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Creative Commons Attribution 4.0 International License
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