Biomimetic Ultra-Broadband Perfect Absorbers Optimised with Reinforcement Learning

October 28, 2019 Β· Declared Dead Β· πŸ› Physical Chemistry, Chemical Physics - PCCP

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Authors Trevon Badloe, Inki Kim, Junsuk Rho arXiv ID 1910.12465 Category physics.optics Cross-listed cs.LG Citations 54 Venue Physical Chemistry, Chemical Physics - PCCP Last Checked 1 month ago
Abstract
By learning the optimal policy with a double deep Q-learning network, we design ultra-broadband, biomimetic, perfect absorbers with various materials, based the structure of a moths eye. All absorbers achieve over 90% average absorption from 400 to 1,600 nm. By training a DDQN with motheye structures made up of chromium, we transfer the learned knowledge to other, similar materials to quickly and efficiently find the optimal parameters from the around 1 billion possible options. The knowledge learned from previous optimisations helps the network to find the best solution for a new material in fewer steps, dramatically increasing the efficiency of finding designs with ultra-broadband absorption.
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