Title :
Estimation of dielectric material properties in THz-frequency range using effective medium theory
Author :
Spathmann, Oliver ; Hansen, Volkert ; Saviz, Mehrdad ; Streckert, Joachim ; Zang, Martin ; Clemens, Markus
Author_Institution :
Dept. of Electromagn. Theor., Bergische Univ. Wuppertal, Wuppertal, Germany
Abstract :
The number of current applications in the THz-frequency range (0.1-10 THz), e.g. full-body scanners or WLAN communication technologies, is rapidly rising. Accordingly, the need for methods to determine the risk for the general public and for employees due to electromagnetic exposure from such sources is growing. The currently available literature provides only information about dielectric material properties of biological tissues for frequencies below 100 GHz. For higher frequencies, the knowledge is sparse. The “effective medium theory” is applied here to estimate the required material data above 100 GHz, which are obviously needed for numerical dosimetry purposes in the THz range. These data are used subsequently for numerical computations of electromagnetic THz-fields in human tissues and resulting heat elevations.
Keywords :
biological effects of fields; biological tissues; dielectric materials; dielectric properties; dosimetry; radiation protection; THz-frequency range; WLAN communication technologies; biological tissues; dielectric material properties; effective medium theory; electromagnetic THz-fields; electromagnetic exposure; employee risk; frequency 0.1 THz to 10 THz; full-body scanners; general public risk; heat elevations; human tissues; numerical computations; numerical dosimetry; radiation protection; Dielectric materials; Dielectrics; Electric fields; Electromagnetic compatibility; Permittivity; Skin; Dielectric data; THz; heat generation; human exposure; numerical dosimetry;
Conference_Titel :
Electromagnetic Compatibility (EMC EUROPE), 2013 International Symposium on
Conference_Location :
Brugge
