Open AccessMeta-hologram-based authentication scheme employing a speckle pattern fingerprint
Author(s) -
Yoav Blau,
Ofer BarOn,
Yael Hanein,
Amir Boag,
Jacob Scheuer
Publication year - 2020
Publication title -
optics express
Language(s) - Uncategorized
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.388233
Subject(s) - holography , speckle pattern , computer science , optics , speckle noise , robustness (evolution) , pseudorandom number generator , fingerprint recognition , fingerprint (computing) , digital watermarking , key (lock) , artificial intelligence , computer vision , physics , algorithm , image (mathematics) , biochemistry , chemistry , computer security , gene
A concept for an optical holographic security tag is proposed and demonstrated. When illuminated with a laser beam, the image scattered from the tag projects a Quick Response code which encodes identifying information. The image also carries pseudorandom speckle noise, from which a unique speckle pattern "fingerprint" is derived. We show numerically that the tag is unclonable without access to a secret key - the starting conditions of the design algorithm. However, given the key, it is straightforward to reproduce a tag exhibiting the expected fingerprint. Several tags have been realized, implemented as plasmonic meta-holograms, and characterized experimentally. The robustness of the tag to fabrication error and its resilience to counterfeiting are studied in detail and demonstrated experimentally.
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