In this paper, a complete electromagnetic and thermal analysis has been performed considering the head of a subject exposed to various kinds of cellular phones available on the market, and focusing the attention on important organs like the eye lens and brain. Attention has first been posed on a particular phone model, and a comparison between the absorbed power distribution and steady-state temperature increases has been carried out. The influence of different antennas (dipole, monopole, whip, and planar inverted F antenna) on the power absorption and on the consequent tissue heating has then been analyzed. The obtained results show, for a radiated power of 600 mW, maximum SAR values, averaged over 1 g, from 2.2 to 3.7 W/kg depending on the considered phone. The maximum temperature increases are obtained in the ear and vary from 0.22 C to 0.43 C, while the maximum temperature increases in the brain lie from 0.08 C to 0.19 C. These steady-state temperature increases are obtained after about 50 min of exposure, with a time constant of approximately 6 min. Finally, the results evidence a maximum temperature increase in the external part of the brain from 0.10 C to 0.16 C for every 1 W/kg of SAR, averaged over 1 g of brain tissue.
Specific Absorption Rate and Temperature Increases in the Head of a Cellular Phone User / Bernardi, Paolo Italo; Cavagnaro, Marta; Pisa, Stefano; Piuzzi, Emanuele. - In: IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES. - ISSN 0018-9480. - STAMPA. - 7:48(2000), pp. 1118-1126. [10.1109/22.848494]
Specific Absorption Rate and Temperature Increases in the Head of a Cellular Phone User
BERNARDI, Paolo Italo;CAVAGNARO, Marta;PISA, Stefano;PIUZZI, Emanuele
2000
Abstract
In this paper, a complete electromagnetic and thermal analysis has been performed considering the head of a subject exposed to various kinds of cellular phones available on the market, and focusing the attention on important organs like the eye lens and brain. Attention has first been posed on a particular phone model, and a comparison between the absorbed power distribution and steady-state temperature increases has been carried out. The influence of different antennas (dipole, monopole, whip, and planar inverted F antenna) on the power absorption and on the consequent tissue heating has then been analyzed. The obtained results show, for a radiated power of 600 mW, maximum SAR values, averaged over 1 g, from 2.2 to 3.7 W/kg depending on the considered phone. The maximum temperature increases are obtained in the ear and vary from 0.22 C to 0.43 C, while the maximum temperature increases in the brain lie from 0.08 C to 0.19 C. These steady-state temperature increases are obtained after about 50 min of exposure, with a time constant of approximately 6 min. Finally, the results evidence a maximum temperature increase in the external part of the brain from 0.10 C to 0.16 C for every 1 W/kg of SAR, averaged over 1 g of brain tissue.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.