Physically unclonable cryptographic primitives using self-assembled carbon nanotubes
Abstract Information security underpins many aspects of modern society. However, silicon
chips are vulnerable to hazards such as counterfeiting, tampering and information leakage
through side-channel attacks (for example, by measuring power consumption, timing or
electromagnetic radiation). Single-walled carbon nanotubes are a potential replacement for
silicon as the channel material of transistors due to their superb electrical properties and
intrinsic ultrathin body, but problems such as limited semiconducting purity and non-ideal …
chips are vulnerable to hazards such as counterfeiting, tampering and information leakage
through side-channel attacks (for example, by measuring power consumption, timing or
electromagnetic radiation). Single-walled carbon nanotubes are a potential replacement for
silicon as the channel material of transistors due to their superb electrical properties and
intrinsic ultrathin body, but problems such as limited semiconducting purity and non-ideal …
[PDF][PDF] Physically unclonable cryptographic primitives using self-assembled carbon nanotubes
Information security underpins many aspects of modern society. However, silicon chips are
vulnerable to hazards such as counterfeiting, tampering and information leakage through
side-channel attacks (for example, by measuring power consumption, timing or
electromagnetic radiation). Single-walled carbon nanotubes are a potential replacement for
silicon as the channel material of transistors due to their superb electrical properties and
intrinsic ultrathin body, but problems such as limited semiconducting purity and non-ideal …
vulnerable to hazards such as counterfeiting, tampering and information leakage through
side-channel attacks (for example, by measuring power consumption, timing or
electromagnetic radiation). Single-walled carbon nanotubes are a potential replacement for
silicon as the channel material of transistors due to their superb electrical properties and
intrinsic ultrathin body, but problems such as limited semiconducting purity and non-ideal …
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