Referenzen
        Anmerkung: In unserer elektronischen Bibliothek finden sich derzeit über 12.000
        Fachbücher und wissenschaftliche Publikationen zum Thema. Zugegeben, wir ha-
        ben nicht alle davon gelesen. Dennoch gibt es viel mehr lesenswerte Literatur als wir
        hier abdrucken können. Sie finden daher hier nur die Referenzen, die wir als beson-
        ders wichtig erachten. Viele weitere Referenzen finden Sie auf unseren Webseiten.
        Athermische Wirkungen:
        I. Belyaev: Nonthermal Biological Effects of Microwaves: Current Knowledge, Further Perspective, and Ur-
        gent Needs. Electromagnetic Biology and Medicine, vol. 24, issue 3 (2005) pp. 375-403
        Markov, M., Grigoriev, Y. G. (2013). Wi-Fi technology – an uncontrolled global experiment on the health of
        mankind. Electromagnetic Biology and Medicine, 32(2), 200–208
        Repacholi, M., Grigoriev, Y., Buschmann, J., & Pioli, C. (2012): Scientific basis for the Soviet and Russian
        radiofrequency standards for the general public. Bioelectromagnetics
        Yakymenko, I., Tsybulin, O., Sidorik, E., Henshel, D., Kyrylenko, O., & Kyrylenko, S. (2015): Oxidative mecha-
        nisms of biological activity of low-intensity radiofrequency radiation. Electromagn. Biology and Medicine
        Kato, M. (2006): Electromagnetics in biology. Tokyo New York: Springer
        Abu Khadra, K. M., Khalil, A. M., Abu Samak, M., & Aljaberi, A. (2014): Evaluation of selected biochemical
        parameters in the saliva of young males using mobile phones. Electromagnetic Biology and Medicine
        Pall, M. L. (2016): Microwave frequency electromagnetic fields (EMFs) produce widespread neuropsychia-
        tric effects including depression. Journal of Chemical Neuroanatomy. Elsevier BV
        Athermische Wirkung linear polarisierter Strahlung:
        Panagopoulos, D.J., Johansson, O., Carlo, G.L. (2015): Polarization – A Key Difference between Man-made
        and Natural Electromagnetic Fields, in regard to Biological Activity. Sci. Rep. 5, 14914
        K. Scheler: Polarisation: Ein wesentlicher Faktor für das Verständnis biologischer Effekte von gepulsten
        elektromagnetischen Wellen niedriger Intensität. „umwelt, medizin, gesellschaft“ 29, 3/2016
        Athermische Wirkung zirkular polarisierter Strahlung:
        Sait, M. L. et. al. (1999): A study of heart rate and heart rate variability in human subjects exposed to occu-
        pational levels of 50 Hz circularly polarised magnetic fields. Medical Engineering & Physics
        de Vocht, F., Hannam, K., Baker, P., & Agius, R. (2014): Maternal residential proximity to sources of extremely
        low frequency electromagnetic fields and adverse birth outcomes in a UK cohort. Bioelectromagnetics
        Kato, M., Honma, K., Shigemitsu, T., & Shiga, Y. (1994): Circularly polarized 50-Hz magnetic field exposure
        reduces pineal gland and blood melatonin concentrations of Long-Evans rats. Neuroscience Letters
        Li, D.-K. (2011): Maternal Exposure to Magnetic Fields During Pregnancy in Relation to the Risk of Asthma
        in Offspring. Archives of Pediatrics & Adolescent Medicine
        Festkörperphysikalische Komponente FK:
        Meschede, D. (2015): Gerthsen Physik, Springer Verlag
        Hoffmann, F. (2016): Faszination Kristalle und Symmetrie, Springer Verlag
        Spieß, L. et. al. (2009): Moderne Röntgenbeugung, Verlag Vieweg+Teubner
        Elektronische Komponente EK:
        Zhang, Z. (2011): Antenna Design for Mobile Devices. John Wiley and Sons
        Abadal, G. et. al. (2014): Electromagnetic Radiation Energy Harvesting – The Rectenna Based Approach
        Rembold, B. (2016): Wellenausbreitung Grundlagen - Modelle - Messtechnik - Verfahren. Springer
        Chen, H.-T., Taylor, A. J., & Yu, N. (2016): A review of metasurfaces: physics and applications. Reports on
        Progress in Physics. IOP Publishing
        Bee Yen Toh, Cahill, R., & Fusco, V. F. (2003): Understanding and measuring circular polarization. IEEE
        Transactions on Education. Institute of Electrical and Electronics Engineers (IEEE)
        Allgemeines Hintergrundwissen:
        Markov, M. (2015): Electromagnetic fields in biology and medicine. CRC Press
        Björn, L. O. (2015): Photobiology: The science of light and life. Springer Verlag
        Rosch, P. (2015): Bioelectromagnetic and subtle energy medicine. CRC Press
        Röösli, M. (2014): Epidemiology of electromagnetic fields. CRC Press
        Brune, D. (2001): Radiation at home, outdoors and in the workplace. Oslo: Scandinavian Science Publisher

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