The Correlation between the Double Helix Quantum Wave in d-Wave Superconductors and Human DNA

• Authors: Z. Güven Özdemir , Ö. Aslan Çataltepe , Ü. Onbaşlı
• Languages of publication: EN

Abstracts

EN

The effective mass of the quasiparticles in a d-wave superconducting system has been calculated via magnetization measurements done by SQUID by using the advanced derivative method used in our previous works. Phenomenological analogy between the double helix quantum wave, which does exist within the primitive cell of the d-wave superconductor, and the human DNA was previously made. In this work, the numerical proof of the analogy mentioned has been realized by determining the magnitude of the attractive force of d-wave structure and comparing with the magnitude of the force that holds the double strand of human DNA that are both of the same order of 10^{-10} N. Moreover, the wavelength of the double helix quantum wave of the superconducting system corresponds to ultraviolet region of the electromagnetic spectrum that exactly coincides with the wavelength which is used for exciting the states in human DNA.

Keywords

EN

74.72.-h; 71.18.+y; 87.14.gk

Discipline

• 74.72.-h: Cuprate superconductors
• 71.18.+y: Fermi surface: calculations and measurements; effective mass, g factor
• 87.14.gk: DNA

• Publisher: Institute of Physics, Polish Academy of Sciences
• Journal: Acta Physica Polonica A
• Year: 2012
• Volume: 121
• Issue: 1
• Pages: 13-15

Dates

published

2012-01

Contributors

author

Z. Güven Özdemir

• Physics Department, Yıldız Technical University, Davutpaşa Cad. Esenler, İstanbul, 34210, Turkey

author

Ö. Aslan Çataltepe

• Anatürkler Educational Consultancy & Trading Co., Cemil Topuzlu Cad. No:73/1, Göztepe, İstanbul, Turkey

author

Ü. Onbaşlı

• Physics Department, University of Marmara, Rıdvan Paşa Cad. 3. Sok. 85/12, Göztepe, İstanbul, Turkey

References

• 1. Ü. Onbaşlı, Z. Güven Özdemir, in: Superconductor, Ed. A. Moyses Luiz, Sciyo Company, 2010, p. 291 (available from: http://sciyo.com/articles/show/title/superconductors-and-quantum-gravity)
• 2. Ö. Aslan, Z. Güven Özdemir, Ü. Onbaşlı, in: The VIth Int. Conf. of the Balkan Physical Union, Eds. S.A. Çetin, İ. Hikmet, AIP Conf. Proc. 899, American Institute of Physics, Melville, NY 2007, p. 271
• 3. V.V. Schmid, The Physics of Superconductors, Introduction to Fundamentals and Applications, Eds. P. Müller, A.V. Ustinov, Springer, Erlangen 1997, p. 81
• 4. R. Ferrell, R. Prange, Phys. Rev. Lett. 10, 479 (1963)
• 5. C. Kittel, Introduction to Solid State Physics, 7th ed., Wiley, New York 1995
• 6. Z. Güven Özdemir, Ö. Aslan, Ü. Onbaşlı, in: The Seventh Int. Conf. on Vibration Problems, ICOVP-2005, Springer Proc. in Physics, Vol. 111, Eds. E. İnan, E. Kırış, Springer, Dordrecht 2007, p. 377
• 7. Z. Güven Özdemir, Ö. Aslan, Ü. Onbaşlı, Pramana-J. Phys. 73, 755 (2009)
• 8. Z.G. Özdemir, Ö. Aslan, Ü. Onbaşlı, J. Phys. Chem. Solids 67, 453 (2006)
• 9. Ü. Onbaşlı, Z. Güven Özdemir, Ö. Aslan, Chaos Solitons Fractals 42, 1980 (2009)
• 10. R. Feynman, Lectures on Physics, Vol. 1, Addison Wesley Publ., Massachusetts 1963
• 11. R.V. Pound, G.A. Rebka, Phys. Rev. Lett. 3, 439 (1959)
• 12. R.V. Pound, G.A. Rebka, Phys. Rev. Lett. 4, 337 (1960)
• 13. T. Boland, B.D. Ratner, Proc. Natl. Acad. Sci. USA 92, 5297 (1995)
• 14. A Yu. Kasumov, M. Kociak, S. Guéron, B. Reulet, V.T. Volkov, D.V. Klinov, H. Bouchiat, Science 291, 280 (2001)
• 15. C.E. Crespo-Hernández, B. Cohen, B. Kohler, Nature 436, 1141 (2005) %

Identifiers

DOI

10.12693/APhysPolA.121.13