Details



STUDY OF QUANTUM KEY DISTRIBUTION ALGORITHM FOR BETTER QUANTUM SECURITY WITH QUANTUM CHANNEL COMMUNICATION

B.Madhav Rao, Dr Kailash Jagannath Karande

1-3

Vol 14, Jul-Dec, 2021

Date of Submission: 2021-05-25 Date of Acceptance: 2021-06-21 Date of Publication: 2021-07-02

Abstract

Wegman-Carter Authentication is as well referred to be tolerant against quantum attacks. There are even different choices of symmetric key cryptography that will be suspected of becoming strong against quantum attacks. For model, common quantum search just gives a quadratic speedup over time-honored investigation, suggesting that quantum computers may in no way carry out an incredible pressure look to discover symmetrical keys very much quicker than can common computers. You are replica uhren worth the top fake watches UK with high quality!
With low price and high quality, the US cheap replica breitling watches are worth having!
You can buy 1:1 Swiss made fake watches UK here with low prices!

References

  1. Frey, J. A., et al. 'Electro-optic polarization tuning of microcavities with a single quantum dot.' Optics Letters 43.17 (2018): 4280-4283.
  2. Zang, Xiaofei, et al. 'Polarization encoded color image embedded in a dielectric metasurface.' Advanced Materials 30.21 (2018): 1707499.
  3. Need, Ryan, et al. 'Resonant X-Ray Reflectometry Study of Orbital Polarization in Quantum Critical SmTiO 3 Heterostructures.' APS March Meeting Abstracts. Vol. 2018. 2018.
  4. Kats, V. N., et al. 'Polarization spectroscopy of an isolated quantum dot and an isolated quantum wire.' Physics of the Solid State 60.12 (2018): 2623-2627.
  5. Li, Jian, et al. 'A survey on quantum cryptography.' Chinese Journal of Electronics 27.2 (2018): 223-228.
  6. Huang, Anqi, et al. 'Implementation vulnerabilities in general quantum cryptography.' New Journal of Physics 20.10 (2018): 103016.
  7. Zhou, Tianqi, et al. 'Quantum cryptography for the future internet and the security analysis.' Security and Communication Networks 2018 (2018).
  8. Arnon-Friedman, Rotem, et al. 'Practical device-independent quantum cryptography via entropy accumulation.' Nature communications 9.1 (2018): 1-11.
  9. Bouchard, Frédéric, et al. 'Quantum cryptography with twisted photons through an outdoor underwater channel.' Optics express 26.17 (2018): 22563-22573.
  10. Sit, Alicia, et al. 'Quantum cryptography with structured photons through a vortex fiber.' Optics letters 43.17 (2018): 4108-4111.
  11. Bykovsky, A. Yu, and Igor'Nikolaevich Kompanets. 'Quantum cryptography and combined schemes of quantum cryptography communication networks.' Quantum Electronics 48.9 (2018): 777.
Download PDF
Back