A.P. Toropainen scite author profile

A.P. Toropainen

5Publications

80Citation Statements Received

21Citation Statements Given

How they've been cited

107

How they cite others

Affiliations

Nokia (United States), Making View (Norway), Nokia (Finland)

Publications

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Interaction of mobile phones with superficial passive metallic implants

et al. 2005

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The dosimetry of exposure to radiofrequency (RF) electromagnetic (EM) fields of mobile phones is generally based on the specific absorption rate (SAR, W kg(-1)), which is the electromagnetic energy absorbed in the tissues per unit mass and time. In this study, numerical methods and modelling were used to estimate the effect of a passive, metallic (conducting) superficial implant on a mobile phone EM field and especially its absorption in tissues in the near field. Two basic implant models were studied: metallic pins and rings in the surface layers of the human body near the mobile phone. The aim was to find out 'the worst case scenario' with respect to energy absorption by varying different parameters such as implant location, orientation, size and adjacent tissues. Modelling and electromagnetic field calculations were carried out using commercial SEMCAD software based on the FDTD (finite difference time domain) method. The mobile phone was a 900 MHz or 1800 MHz generic phone with a quarter wave monopole antenna. A cylindrical tissue phantom models different curved sections of the human body such as limbs or a head. All the parameters studied (implant size, orientation, location, adjacent tissues and signal frequency) had a major effect on the SAR distribution and in certain cases high local EM fields arose near the implant. The SAR values increased most when the implant was on the skin and had a resonance length or diameter, i.e. about a third of the wavelength in tissues. The local peak SAR values increased even by a factor of 400-700 due to a pin or a ring. These highest values were reached in a limited volume close to the implant surface in almost all the studied cases. In contrast, without the implant the highest SAR values were generally reached on the skin surface. Mass averaged SAR(1 g) and SAR(10 g) values increased due to the implant even by a factor of 3 and 2, respectively. However, at typical power levels of mobile phones the enhancement is unlikely to be problematic.

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Linear Pattern Correction in a Small Microstrip Antenna Array

Salonen¹,

Toropainen

Vainikainen³

2004

IEEE Trans. Antennas Propagat.

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Method for accurate measurement of complex permittivityof tissue equivalent liquids

Toropainen¹,

Vainikainen²,

Drossos³

2000

Electron. Lett.

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Human exposure by mobile phones in enclosed areas

Toropainen¹

2002

Bioelectromagnetics

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Human exposure by mobile phones in enclosed areas such as train carriages, elevators, and cars is considered. Equivalent power density and whole body specific absorption rate (SAR) are estimated by applying multimode resonant cavity theory and a straight forward worst case approach. The results show that exceeding the International Commission on Non-Ionizing Radiation Protection (ICNIRP) guidelines due to simultaneous use of several mobile phones in enclosed areas is highly improbable.

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New method for measuring properties of nonhomogeneous materials by a two-polarization forward-scattering measurement

Toropainen¹

1993

IEEE Trans. Microwave Theory Techn.

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A.P. Toropainen

Interaction of mobile phones with superficial passive metallic implants

Linear Pattern Correction in a Small Microstrip Antenna Array

Method for accurate measurement of complex permittivityof tissue equivalent liquids

Human exposure by mobile phones in enclosed areas

New method for measuring properties of nonhomogeneous materials by a two-polarization forward-scattering measurement

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