Elimination of a Second-Law-Attack, and All Cable-Resistance-Based Attacks, in the Kirchhoff-Law-Johnson-Noise (KLJN) Secure Key Exchange System Academic Article

abstract

• 2014 by the authors. We introduce the so far most efficient attack against the Kirchhoff-law-Johnsonnoise (KLJN) secure key exchange system. This attack utilizes the lack of exact thermal equilibrium in practical applications and is based on cable resistance losses and the fact that the Second Law of Thermodynamics cannot provide full security when such losses are present. The new attack does not challenge the unconditional security of the KLJN scheme, but it puts more stringent demands on the security/privacy enhancing protocol than for any earlier attack. In this paper we present a simple defense protocol to fully eliminate this new attack by increasing the noise-temperature at the side of the smaller resistance value over the noise-temperature at the side with the greater resistance. It is shown that this simple protocol totally removes Eve's information not only for the new attack but also for the old Bergou-Scheuer-Yariv attack. The presently most efficient attacks against the KLJN scheme are thereby completely nullified.

authors

• Kish, Laszlo

published proceedings

• ENTROPY

altmetric score

• 3.25

author list (cited authors)

• Kish, L. B., & Granqvist, C.

citation count

• 28

complete list of authors

• Kish, Laszlo B||Granqvist, Claes-Goran

publication date

• January 2014

publisher

• MDPI  Publisher

published in

• Entropy: international and interdisciplinary journal of entropy and information studies  Journal

keywords

• Johnson Noise
• Kljn Key Exchange
• Second Law
• Unconditional Security

Digital Object Identifier (DOI)

• 10.3390/e16105223

URI

• https://hdl.handle.net/1969.1/181777

start page

• 5223

end page

• 5231

volume

• 16

issue

• 10

URL

• http%3A%2F%2Fdx.doi.org%2F10.3390%2Fe16105223