Abstract
Modern cryptographic practice rests on the use of one-way functions, which are easy to evaluate but difficult to invert. Unfortunately, commonly used one-way functions are either based on unproven conjectures or have known vulnerabilities. We show that instead of relying on number theory, the mesoscopic physics of coherent transport through a disordered medium can be used to allocate and authenticate unique identifiers by physically reducing the medium's microstructure to a fixed-length string of binary digits. These physical one-way functions are inexpensive to fabricate, prohibitively difficult to duplicate, admit no compact mathematical representation, and are intrinsically tamper-resistant. We provide an…
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1,983
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4Topics & keywords
Topics
Keywords
- Computer science
- Principal (computer security)
- Mesoscopic physics
- String (physics)
- Representation (politics)
- Theoretical computer science
- Protocol (science)
- Cryptography
UN Sustainable Development Goals
- Peace, Justice and strong institutions
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