Litcius/Paper detail

Direct laser printing of high-resolution physically unclonable function anti-counterfeit labels

Vasily Lapidas, Alexey Zhizhchenko, Е. В. Пустовалов, D. V. Storozhenko, Aleksandr A. Kuchmizhak

2022Applied Physics Letters36 citationsDOI

Abstract

Security labels combining facile structural color readout and physically unclonable one-way function (PUF) approach provide promising strategy for fighting against forgery of marketable products. Here, we justify direct femtosecond-laser printing, a simple and scalable technology, for fabrication of high-resolution (12 500 dots per inch) and durable PUF labels with a substantially large encoding capacity of 10895 and a simple spectroscopy-free optical signal readout. The proposed tags are comprised of laser-printed plasmonic nanostructures exhibiting unique light scattering behavior and unclonable 3D geometry. Uncontrollable stochastic variation of the nanostructure geometry in the process of their spot-by-spot printing results in random and broadband variation of the scattering color of each laser printed “pixel,” making laser-printed patterns unique and suitable for PUF labeling.

Topics & Concepts

Physical unclonable functionMaterials scienceLaserFemtosecondOptoelectronicsCounterfeitFabricationNanotechnologyOpticsComputer scienceComputer hardwarePhysicsAlternative medicineArbiterLawPathologyPolitical scienceMedicinePhysical Unclonable Functions (PUFs) and Hardware SecurityNanofabrication and Lithography TechniquesNeuroscience and Neural Engineering
Direct laser printing of high-resolution physically unclonable function anti-counterfeit labels | Litcius