K. P. Ramakrishnan scite author profile

When a human subject is exposed to high intensity microwave radiation, lens opacification and cataractogenic effects often result in, due to the absorption of the incident energy and consequent conversion into heat. Besides these effects, it is presently indicated that the temperature rise due to the absorbed energy may also induce thermoelastic stresses in the ocular media and causes thermoelastic vibrations of the lens. The resulting mechanical effect arising from compression and tension stress would evoke harardous physio-chemical processes through 'micromassaging' of the delicate tissue surfaces. A theoretical evaluation of the microwave-induced temperature distribution in the eye and consequent thermoelastic stress-strain and Vibration Parameters is presented and the hazardous effects are discussed. Wenn das menschliche Auge von Mikrowellenenergie bestrahlt wird, geht ein Teil dieser Energie in Wärme über. Die Folge sind Linsentrübung und kataraktogenische Effekte. Die Temperaturerhöhung durch die absorbierte Energie erzeugt außerdem eine thermoelastische Spannung in den Okularmedien und erzeugt Schwingungen der Okularlinse. Die vorliegende Arbeit befaßt sich hiermit. Durch 'Mikromassieren' der empfindlichen Gewebeoberfläche des Auges ruft die mechanische Spannung gefährliche physio-chemikalische Prozesse hervor. Eine theoretische Überlegung der durch Mikrowellen induzierten Temperaturverteilung im Auge und die dadurch bedingte thermoelastische Spannungsbeanspruchung und die Vibrationsparameter werden aufgezeigt und die gefährdenden Effekte diskutiert.

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K. P. Ramakrishnan

Microwave-induced hazardous nonlinear thermoelastic vibrations of the ocular lens in the human eye

Microwave Interference with the Function of an Implanted Cardiac Pacemaker

Microwave-induced hazardous thermal stresses in the ocular lens of the human eye - Mikrowellen-induzierte gefährliche Wärmespannung in der Okularlinse des menschlichen Auges

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