Laszlo B. Kish

Identifiers

• name variant Laszlo B. Kish 0.60 · backfill

Papers (87)

1. Binary Classifier Wire-Resistance Attack on KLJN: Impact of Narrowing the Resistor Gap physics.gen-ph · 2026 · author #2
2. A Static-Loop-Current Attack against the KLJN Secure Key Exchange System cs.CR · 2018 · author #2
3. Does a standalone, "cold" (low-thermal-noise), linear resistor exist without cooling? physics.gen-ph · 2018 · author #2
4. Noise-based logic gates by operations on the reference system cs.ET · 2018 · author #1
5. Information entropy and thermal entropy: apples and oranges physics.gen-ph · 2017 · author #1
6. Second Law based definition of passivity/activity of devices physics.gen-ph · 2017 · author #3
7. Memristor equations: incomplete physics and undefined passivity/activity cs.ET · 2017 · author #3
8. Comments on "sub-KBT micro-electromechanical irreversible logic gate" cs.ET · 2016 · author #1
9. Response to "Comment on 'Zero and negative energy dissipation at information-theoretic erasure'" cs.ET · 2016 · author #1
10. Current Injection Attack against the KLJN Secure Key Exchange cs.CR · 2015 · author #3
11. Key Exchange Trust Evaluation in Peer-to-Peer Sensor Networks with Unconditionally Secure Key Exchange cs.CR · 2015 · author #2
12. Drawing from hats by noise-based logic cs.ET · 2015 · author #2
13. Cable Capacitance Attack against the KLJN Secure Key Exchange cs.ET · 2015 · author #4
14. Zero and negative energy dissipation at information-theoretic erasure cs.ET · 2015 · author #1
15. Resource requirements and speed versus geometry of unconditionally secure physical key exchanges cs.CR · 2015 · author #3
16. Zero-point term and quantum effects in the Johnson noise of resistors: A critical appraisal physics.gen-ph · 2015 · author #1
17. Lognormal distribution of firing time and rate from a single neuron? physics.bio-ph · 2014 · author #4
18. Resistance noise at the metal-insulator transition in thermochromic VO2 films cond-mat.mtrl-sci · 2014 · author #5
19. Analysis of an attenuator artifact in an experimental attack by Gunn-Allison-Abbott against the Kirchhoff-law-Johnson-noise (KLJN) secure key exchange system cs.CR · 2014 · author #1
20. Critical Remarks on Landauer's principle of erasure-dissipation physics.gen-ph · 2014 · author #1
21. Enhanced usage of keys obtained by physical, unconditionally secure distributions cs.CR · 2014 · author #1
22. Brain: Biological noise-based logic cs.NE · 2014 · author #1
23. Bird's-eye view on Noise-Based Logic cs.ET · 2014 · author #1
24. Facts, myths and fights about the KLJN classical physical key exchanger cs.ET · 2014 · author #1
25. Elimination of a Second-Law-attack, and all cable-resistance-based attacks, in the Kirchhoff-law-Johnson-noise (KLJN) secure key exchange system cs.ET · 2014 · author #1
26. Do electromagnetic waves exist in a short cable at low frequencies? What does physics say? cs.CR · 2014 · author #2
27. On the "cracking" scheme in the paper "A directional coupler attack against the Kish key distribution system" by Gunn, Allison and Abbott cs.CR · 2014 · author #2
28. Times in noise-based logic: increased dimensions of logic hyperspace cs.ET · 2013 · author #1
29. Does Information Have Mass? physics.class-ph · 2013 · author #1
30. Current and voltage based bit errors and their combined mitigation for the Kirchhoff-law-Johnson-noise secure key exchange cs.CR · 2013 · author #2
31. Critical analysis of the Bennett-Riedel attack on secure cryptographic key distributions via the Kirchhoff-law-Johnson-noise scheme cs.CR · 2013 · author #1
32. Errors and their mitigation at the Kirchhoff-law-Johnson-noise secure key exchange cs.ET · 2013 · author #2
33. Physical uncloneable function hardware keys utilizing Kirchhoff-law-Johnson-noise secure key exchange and noise-based logic cs.CR · 2013 · author #1
34. Information theoretically secure, enhanced Johnson noise based key distribution over the smart grid with switched filters cs.CR · 2013 · author #2
35. Enhanced secure key exchange systems based on the Johnson-noise scheme cs.CR · 2013 · author #1
36. Twisted Radio Waves and Twisted Thermodynamics physics.class-ph · 2012 · author #1
37. Stochastic processes in light-assisted nanoparticle formation cond-mat.mes-hall · 2012 · author #6
38. Noise based logic: why noise? A comparative study of the necessity of randomness out of orthogonality cs.OH · 2012 · author #2
39. Optimum Drift Velocity for Single Molecule Fluorescence Bursts in Micro/Nano-Fluidic Channels physics.gen-ph · 2012 · author #4
40. Information Networks Secured by the Laws of Physics cs.CR · 2011 · author #1
41. Energy Requirement of Control: Comments on Szilard's Engine and Maxwell's Demon physics.gen-ph · 2011 · author #1
42. Log-Normal Distribution of Single Molecule Fluorescence Bursts in Micro/Nano-Fluidic Channels physics.data-an · 2011 · author #4
43. Noise-based information processing: Noise-based logic and computing: what do we have so far? cs.ET · 2011 · author #1
44. Effective Privacy Amplification for Secure Classical Communications cs.CR · 2011 · author #2
45. Instantaneous, non-squeezed, noise-based logic cs.OH · 2010 · author #2
46. Ultimate crack and lack of any security in the statistical key exchange protocol with random signals and feedback quant-ph · 2010 · author #2
47. Thermal noise engines physics.class-ph · 2010 · author #1
48. Noise and Bell's inequality quant-ph · 2010 · author #2
49. Noise-based deterministic logic and computing: a brief survey physics.data-an · 2010 · author #1
50. Computation using Noise-based Logic: Efficient String Verification over a Slow Communication Channel cs.IT · 2010 · author #1
51. Instantaneous noise-based logic cs.OH · 2010 · author #1
52. Bacteria Identification by Phage Induced Impedance Fluctuation Analysis (BIPIF) physics.ins-det · 2010 · author #2
53. Noise in the wire: the real impact of wire resistance for the Johnson (-like) noise based secure communicator physics.class-ph · 2010 · author #1
54. Binary Fingerprints at Fluctuation-Enhanced Sensing physics.bio-ph · 2009 · author #2
55. Fluctuation-Enhanced Sensing for Biological Agent Detection and Identification physics.bio-ph · 2009 · author #1
56. Absolutely Secure Communications by Johnson-like Noise and Kirchhoff's Laws physics.gen-ph · 2009 · author #1
57. Cracking the Liu key exchange protocol in its most secure state with Lorentzian spectra physics.data-an · 2009 · author #3
58. Notes on Recent Approaches Concerning the Kirchhoff-Law-Johnson-Noise-based Secure Key Exchange physics.gen-ph · 2009 · author #1
59. Identification of Bacteria by Patterns Generated from Odor Spectra physics.gen-ph · 2009 · author #2
60. Noise-based logic hyperspace with the superposition of 2^N states in a single wire physics.gen-ph · 2009 · author #1
61. Theory and Techniques for Vibration-Induced Conductivity Fluctuation testing of Soils physics.ins-det · 2009 · author #2
62. Fluctuation-Enhanced Sensing of Bacterium Odors physics.ins-det · 2009 · author #2
63. Noise-driven informatics: secure classical communications via wire and noise-based computing physics.gen-ph · 2008 · author #1
64. Noise-based logic: Binary, multi-valued, or fuzzy, with optional superposition of logic states physics.gen-ph · 2008 · author #1
65. Noise-based communication and computing physics.gen-ph · 2008 · author #1
66. Weight fluctuations of information storage media physics.gen-ph · 2008 · author #1
67. Unconditionally secure computers, algorithms and hardware, such as memories, processors, keyboards, flash and hard drives physics.gen-ph · 2008 · author #1
68. Doubling Fluctuation-Enhanced Sensing Information by Separating Adsorption-Desorption and Difussive Fluctuations physics.gen-ph · 2008 · author #2
69. "Gravitational mass" of information? physics.gen-ph · 2007 · author #1
70. Vibration-Induced Conductivity Fluctuation Measurement for Soil Bulk Density Analysis physics.ins-det · 2007 · author #4
71. Thermal noise informatics: Totally secure communication via a wire; Zero-power communication; and Thermal noise driven computing physics.gen-ph · 2007 · author #1
72. Fluctuation-Enhanced Sensing of Molecules with Biased Carbon Nanotubes, or Nanowires, and Adsorption-Desorption Fluctuations physics.gen-ph · 2007 · author #1
73. On the sensitivity, selectivity, sensory information and optimal size of resistive chemical sensors physics.gen-ph · 2007 · author #1
74. Response to Feng Hao's paper "Kish's key exchange scheme is insecure" physics.gen-ph · 2006 · author #1
75. Johnson(-like)-Noise-Kirchhoff-Loop Based Secure Classical Communicator Characteristics, for Ranges of Two to Two Thousand Kilometers, via Model-Line physics.gen-ph · 2006 · author #3
76. Why wave-based classical communicators can never be totally secure? physics.gen-ph · 2006 · author #1
77. Methods of Using Existing Wire Lines (power lines, phone lines, internet lines) for Totally Secure Classical Communication Utilizing Kirchoff's Law and Johnson-like Noise physics.gen-ph · 2006 · author #1
78. Thermal noise driven computing physics.gen-ph · 2006 · author #1
79. Response to Scheuer-Yariv: "A Classical Key-Distribution System based on Johnson (like) noise -How Secure?" physics.gen-ph · 2006 · author #1
80. Totally secure classical networks with multipoint telecloning (teleportation) of classical bits through loops with Johnson-like noise physics.gen-ph · 2006 · author #1
81. Long Response to Scheuer-Yariv: "A Classical Key-Distribution System based on Johnson (like) noise - How Secure?", physics/0601022 physics.gen-ph · 2006 · author #1
82. Protection against the man-in-the-middle-attack for the Kirchhoff-loop-Johnson(-like)-noise cipher and expansion by voltage-based security physics.gen-ph · 2005 · author #1
83. Vibration-Induced Conductivity Fluctuation (VICOF) Testing of Soils physics.gen-ph · 2005 · author #1
84. Recognizing different types of stochastic processes physics.data-an · 2005 · author #2
85. Totally Secure Classical Communication Utilizing Johnson (-like) Noise and Kirchoff's Law physics.class-ph · 2005 · author #1
86. An absolutely secure QKD scheme with no detection noise, entanglement and classical communication quant-ph · 2005 · author #2
87. Stealth Communication: Zero-Power Classical Communication, Zero-Quantum Quantum Communication and Environmental-Noise Communication physics.data-an · 2005 · author #1

Mentions

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Frequent Coauthors

• Claes-Goran Granqvist 14 shared papers
• Zoltan gingl 8 shared papers
• Chiman Kwan 7 shared papers
• Claes G. Granqvist 7 shared papers
• Ferdinand Peper 7 shared papers
• Tamas Horvath 7 shared papers
• Gabor Schmera 6 shared papers
• Hung-Chih Chang 5 shared papers
• Robert Mingesz 5 shared papers
• David K. Ferry 4 shared papers
• Elias Gonzalez 4 shared papers
• Hsien-Pu Chen 4 shared papers
• Janusz Smulko 4 shared papers
• Maria D. King 4 shared papers
• Sunil Khatri 4 shared papers
• Sunil P. Khatri 4 shared papers
• He Wen 3 shared papers
• Lazar L. Kish 3 shared papers
• Sergey M. Bezrukov 3 shared papers
• Yessica Saez 3 shared papers