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Hauptverfasser: Jung, Wookjin, Jeong, Serin, Kim, Kyulim, Lee, Dongkyu, Kim, Sang Ouk, Yeom, Jihyeon
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2605.14353
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author Jung, Wookjin
Jeong, Serin
Kim, Kyulim
Lee, Dongkyu
Kim, Sang Ouk
Yeom, Jihyeon
author_facet Jung, Wookjin
Jeong, Serin
Kim, Kyulim
Lee, Dongkyu
Kim, Sang Ouk
Yeom, Jihyeon
contents Nanoscale fabrication inevitably produces local stochasticity that is commonly treated as a defect, but can instead be harnessed as a material resource for information security. Here we report a chiroptical platform for ternary entropy harvesting based on stochastic Au nanopatterns formed by block copolymer self-assembly. By transducing fabrication-induced stochastic microstates into handedness-dependent optical responses through chiroptical mapping, our platform enables native ternary digitization rather than conventional binary encoding, allowing physically harvested ternary random sequences to be used for key generation. This raises the information density to log2(3) = 1.585 bits per trit, approximately 58.5% higher than the binary limit, enabling more entropy to be harvested from a limited physical footprint. The harvested outputs exhibit near-balanced symbol populations, negligible spatial and inter-sample correlations, Shannon entropy approaching the ternary ideal, and resistance to statistical and machine-learning-based prediction. These results establish self-assembled chiroptical nanostructures as a scalable platform for cryptographic key generation, secure edge devices, and distributed Internet-of-Things platforms.
format Preprint
id arxiv_https___arxiv_org_abs_2605_14353
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Chiroptical Ternary Entropy Harvesting from Self-Assembled Block Copolymer Nanopatterns
Jung, Wookjin
Jeong, Serin
Kim, Kyulim
Lee, Dongkyu
Kim, Sang Ouk
Yeom, Jihyeon
Materials Science
Nanoscale fabrication inevitably produces local stochasticity that is commonly treated as a defect, but can instead be harnessed as a material resource for information security. Here we report a chiroptical platform for ternary entropy harvesting based on stochastic Au nanopatterns formed by block copolymer self-assembly. By transducing fabrication-induced stochastic microstates into handedness-dependent optical responses through chiroptical mapping, our platform enables native ternary digitization rather than conventional binary encoding, allowing physically harvested ternary random sequences to be used for key generation. This raises the information density to log2(3) = 1.585 bits per trit, approximately 58.5% higher than the binary limit, enabling more entropy to be harvested from a limited physical footprint. The harvested outputs exhibit near-balanced symbol populations, negligible spatial and inter-sample correlations, Shannon entropy approaching the ternary ideal, and resistance to statistical and machine-learning-based prediction. These results establish self-assembled chiroptical nanostructures as a scalable platform for cryptographic key generation, secure edge devices, and distributed Internet-of-Things platforms.
title Chiroptical Ternary Entropy Harvesting from Self-Assembled Block Copolymer Nanopatterns
topic Materials Science
url https://arxiv.org/abs/2605.14353