Perspective—On the thermodynamics of perfect unconditional security

Chamon, Christiana; Kish, László B.

doi:10.1063/5.0057764

Cited by 9 publications

(1 citation statement)

References 91 publications

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“…Several attacks against the KLJN system have been proposed [2,3,14,, but no attack has been able to compromise its information-theoretic security. Each of these attacks is either invalid or it can be nullified by a corresponding defense scheme.…”

Section: On the Kljn Schemementioning

confidence: 99%

Deterministic Random Number Generator Attack Against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol

2021

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This paper demonstrates the vulnerability of the Kirchhoff-Law-Johnson-Noise (KLJN) secure key exchanger to compromised random number generator(s) even if these random numbers are used solely to generate the noises emulating the Johnson noise of Alice’s and Bob’s resistors. The attacks shown are deterministic in the sense that Eve’s knowledge of Alice’s and/or Bob’s random numbers is basically deterministic. Moreover, no statistical evaluation is needed, except for rarely occurring events of negligible, random waiting time and verification time. We explore two situations. In the first case, Eve knows both Alice’s and Bob’s random noises. We show that, in this situation, Eve can quickly crack the secure key bit by using Ohm’s Law. In the other situation, Eve knows only Bob’s random noise. Then Eve first can learn Bob’s resistance value by using Ohm’s Law. Therefore, she will have the same knowledge as Bob, thus at the end of the bit exchange period, she will know Alice’s bit.

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Section: On the Kljn Schemementioning

confidence: 99%

Deterministic Random Number Generator Attack Against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol

2021

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Secure Key Distribution for Vehicular Network Based on Kirchhoff Law Johnson Noise

Jadoon,

Shen,

Khan

2023

Mobile Netw Appl

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Transient attacks against the Kirchhoff–Law–Johnson–Noise (KLJN) secure key exchanger

Ferdous

Kish

2023

Applied Physics Letters

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We demonstrate the security vulnerability of an ideal Kirchhoff–Law–Johnson–Noise key exchanger against transient attacks. Transients start when Alice and Bob connect a wire to their chosen resistor at the beginning of each clock cycle. A transient attack takes place during a short duration of time, before the transients reflected from the end of Alice and Bob mix together. The information leak arises from the fact that Eve (the eavesdropper) monitors the cable and analyzes the transients during this time period. We will demonstrate such a transient attack, and then, we introduce a defense protocol to protect against the attack. Computer simulations demonstrate that after applying the defense method the information leak becomes negligible.

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Perspective—On the thermodynamics of perfect unconditional security

Cited by 9 publications

References 91 publications

Deterministic Random Number Generator Attack Against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol

Deterministic Random Number Generator Attack Against the Kirchhoff-Law-Johnson-Noise Secure Key Exchange Protocol

Secure Key Distribution for Vehicular Network Based on Kirchhoff Law Johnson Noise

Transient attacks against the Kirchhoff–Law–Johnson–Noise (KLJN) secure key exchanger

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