International audienceThis paper investigates the influence of electrical and thermal human tissue parameters on the heating of a body illuminated by a millimeter plane electromagnetic wave. A stochastic approach is considered with a three-layer model of the body: it is found that the parameters of skin play a major role
This paper investigates the effect of relevant physical parameters on transient temperature elevatio...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis paper investigates the influence of electrical and thermal human tissue p...
International audienceThis paper investigates the influence of electrical and thermal human tissue p...
This paper investigates the influence of electrical and thermal human tissue parameters on the heati...
This paper investigates the influence of electrical and thermal human tissue parameters on the heati...
The paper investigates the heating of tissues exposed to millimeter and sub-millimeter electromagne...
The paper investigates the heating of tissues exposed to millimeter and sub-millimeter electromagne...
Abstract Background Because the possibility of millimeter wave (MMW) exposure has increased, public ...
The distributions of Specific Absorption Ratio (SAR) and temperature rise in a human body exposed to...
This paper investigates the effect of relevant physical parameters on transient temperature elevatio...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
This paper investigates the effect of relevant physical parameters on transient temperature elevatio...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis paper investigates the influence of electrical and thermal human tissue p...
International audienceThis paper investigates the influence of electrical and thermal human tissue p...
This paper investigates the influence of electrical and thermal human tissue parameters on the heati...
This paper investigates the influence of electrical and thermal human tissue parameters on the heati...
The paper investigates the heating of tissues exposed to millimeter and sub-millimeter electromagne...
The paper investigates the heating of tissues exposed to millimeter and sub-millimeter electromagne...
Abstract Background Because the possibility of millimeter wave (MMW) exposure has increased, public ...
The distributions of Specific Absorption Ratio (SAR) and temperature rise in a human body exposed to...
This paper investigates the effect of relevant physical parameters on transient temperature elevatio...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
This paper investigates the effect of relevant physical parameters on transient temperature elevatio...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...
International audienceThis study demonstrates that 20-100 GHz range can be used for spatially-accura...