References
- Aharonov Y., Bohm D. Significance of electromagnetic potentials in quantum theory. Phys. Rev. 1959; 115: 485–491
- Bak P., Tang Ch., Wiesenfeld K. Self-organized criticality: An explanation of 1/f noise. Phys. Rev. Lett. 1987; 59: 381–384
- Bassingthwaighte J. B., Leibovitch L. S., West B. J. Fractal Physiology. Oxford University Press, New York 1994
- Brown, J. H., West, G. B., eds. (2000). Scaling in Biology. New York: Oxford University Press.
- Bruhn, G. W. (2000). Commentary on the Chapter “Scalar Waves,” in “Energy Medicine—The Scientific Basis.” http://www.mathematik.tu-darmstadt.de/∼bruhn/Commentary-Oschman.htm
- Bruhn G. W. On the existence of K. Meyl's scalar waves. J. Scientif. Explor. 2001; 15(2)206–210
- Camazine S., Deneubourg J.-L., Franks N. R., et al. Self-Organization in Biological Systems. Princeton Studies in Complexity. Princeton University Press, Princeton, NJ 2003
- Easterly C. E. Cancer link to magnetic field explosure: A hypothesis. Amer. J. Epidem. 1981; 114: 169–175
- Einstein A., Laub J. Über die im elektromagnetischen Felde auf ruhende Körper ausgeübten ponderomotorischen Kräfte [On the Ponderomotive Forces Exerted on Bodies at Rest in the Electromagnetic Field]. Annalen der Physik 1908; 26: 541–550
- Feynman R. P., Leighton R. B., Sands M. The Feynman Lectures of Physics, vol. 2. Mainly Electromagnetism and Matter. Addison-Wesley Publishing Company, Reading, MA 1977
- Gelinas, R. C. (1984). United States Patent 4, 429, 280 (January 31).
- Gillespie D. T. Markov Processes. Academic Press, San Diego 1992
- Gillespie D. T. The mathematics of Brown motion and Johnson noise. Amer. J. Phys. 1996; 64: 225–240
- Goldberger, A. L., Amaral, L. A. N., Hausdorff, J. M., et al. (2001). Fractal dynamics in physiology: Alterations with disease and aging. PNAS Colloq. 99(Suppl. 1):2466–2472, presented in Arthur M. Sackler Colloquium of NAS, March 23–24, Irvine, CA.
- Gubarev F. V., Sodolsky L., Zakharov V. I. On the significance of the vector potential squared. Phys. Rev. Lett. 2001; 86: 2220–2222
- Haken, H. Synergetics. Springer-Verlag, Berlin 1977
- Hall H. A review of energy medicine: The scientific basis. Skeptic Mag 2005; 11(3), http://quackfiles.blogspot.com/2006/01/review-of-energy-medicine-scientific.html
- Hegyi G., Vincze G., Szasz A. Axial-vector interaction with bio-systems. Electr. Biol. Med. 2007; 26: 107–118
- Jackson J. D. Classical Electrodynamics.3rd ed. John Wiley & Sons, New York 1999
- Konopinsky E. J. What the electromagnetic vector potential describes. Amer. J. Phys. 1978; 46: 499–502
- Landau, L. D., Lifsic, E. M. (1973). Theoretical Physics. II. Field Theory (in Russian). Moscow: Nauka-Press.
- Marjan, M. I., Szasz, A. (2000). Self-organizing processes in non-crystalline materials: From lifeless to living objects. OncoTherm Kft., Budapest.
- Marton L. Electron interferometer. Phys. Rev. 1952; 85: 1057–1058
- Maxwell J. C. A Treatise on Electricity and Magnetism. Clarendon Press, Oxford 1891, (Reprint 1998).
- Meyl K. Scalar waves: Theory and experiments. J. Scientif. Explor. 2001; 15(2)199–205
- Mie, G. (1912, 1913). Grundlagen einer theorie der materie. Ann. der Physik 37, 39, 40.
- Musha, T., Sawada, Y., eds. (1994). Physics of the Living State. Amsterdam: IOS Press.
- Onsager L. Reciprocal relations in irreversible processes. Phys. Rev. 1931; 37: 405–426
- Oschman J. Energy Medicine—The Scientific Basis. Churchill Livingstone, New York 2000
- Pauli, W. (1958). Prinzipien Der Quantentheorie. Handbuch Der Physik bd. V. Berlin: Springer Verlag.
- Rampl, I. (2008). New biophysical field attacks cancer cells. http://www.rampl.eu/
- Randerson, J. (2007). Electrosmog in the clear with scientists. Guardian, January 18; http://www.guardian.co.uk/technology/2007/jan/18/guardianweeklytechnologysection4
- Rein, G., Tiller, W. A. (1996). Anomalous information storage in water: Spectroscopic evidence for non-quantum informational transfer. Proc. 3rd Int. Symp. New Energy, April 24–28, Denver, p. 365.
- Reno V. R., Nutini L. G. Effect of magnetic fields on tissue respiration. Nature 1963; 198: 204–205
- Sharipov F. Onsager-Casimir reciprocal relations based on the Boltzmann equation and gas-surface interaction: Single gas. Phys. Rev. E 2006; 73(026110)1–8
- Szendro P., Vincze G., Szasz A. Pink noise behaviour of the bio-systems. Eur. Biophys. J. 2001a; 30: 227–231
- Szendro P., Vincze Gy., Szasz A. Bio-response to white noise excitation. Electro. Magnetobiol. 2001b; 20: 215–229
- Tesla, N. (1905). Art of transmitting electrical energy through the natural medium. United States Patent, No. 787, 412 April.
- Tiller, W. A. (1999). Subtle energies. Sci. Med. 6(3): May/June.
- Vandas M., Romashets E. P. A force-free field with constant alpha in an oblate cylinder: A generalization of the Lundquist solution. Astron. Aastrophys. 2003; 398: 801–807
- Vincze, I. Matematische Statistik mit Industriellen Anwendungen. Akadémiai Kiadó, Budapest 1971
- Walleczek J., ed. (2000). Self-Organized Biological Dynamics & Nonlinear Control. Cambridge: Cambridge University Press.
- West B. J. Fractal Physiology and Chaos in Medicine. World Scientific, Singapore, London 1990
- West G. B., Brown J. H., Enquist B. J. The four dimension of life: Fractal geometry and allometric scaling of organisms. Science 1999; 284: 4
- Wolf A. A. On a unified theory of cancer etiology and treatment based on the superconduction double-dipole model. Physiol. Chem. Phys. 1981; 13: 493–510