Litcius/Paper detail

Revisiting silk: a lens-free optical physical unclonable function

Min Seok Kim, Gil Ju Lee, Jung Woo Leem, Seung‐Ho Choi, Young L. Kim, Young Min Song

2022Nature Communications126 citationsDOIOpen Access PDF

Abstract

For modern security, devices, individuals, and communications require unprecedentedly unique identifiers and cryptographic keys. One emerging method for guaranteeing digital security is to take advantage of a physical unclonable function. Surprisingly, native silk, which has been commonly utilized in everyday life as textiles, can be applied as a unique tag material, thereby removing the necessary apparatus for optical physical unclonable functions, such as an objective lens or a coherent light source. Randomly distributed fibers in silk generate spatially chaotic diffractions, forming self-focused spots on the millimeter scale. The silk-based physical unclonable function has a self-focusing, low-cost, and eco-friendly feature without relying on pre-/post-process for security tag creation. Using these properties, we implement a lens-free, optical, and portable physical unclonable function with silk identification cards and study its characteristics and reliability in a systemic manner. We further demonstrate the feasibility of the physical unclonable functions in two modes: authentication and data encryption.

Topics & Concepts

Physical unclonable functionComputer scienceCryptographyPhysical securityAuthentication (law)EncryptionSILKReliability (semiconductor)Lens (geology)Computer hardwareEmbedded systemComputer securityPhysicsTelecommunicationsOpticsQuantum mechanicsPower (physics)Physical Unclonable Functions (PUFs) and Hardware SecurityBiometric Identification and SecurityAdvanced Optical Imaging Technologies