J. A. Müller scite author profile

J. A. Müller

4Publications

18Citation Statements Received

26Citation Statements Given

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Affiliations

Klinikum Sindelfingen-Böblingen, University of Tübingen, Technical University of Munich

Publications

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Influence of low power cm-/mm-microwaves on cardiovascular function

Müller

Hadeler

Müller

et al. 2004

International Journal of Environmental Health Research

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The present study has been designed to investigate physiological effects of short (15 min) exposure to low level energy microwaves (< 10 microW cm(-2)). To this end heart rate, PQ, QS and ST (electrocardiography), respiration (conductive stretch band around the thorax), skin temperature (thermocouple), skin conductance (Ag/AgCl electrodes), systolic and diastolic blood pressure (automatic cuff) were continuously recorded in a group of 50 test persons before, during and after a 15 min exposure to 3 microW cm(-2) high frequency (77 GHz) microwaves. After an equilibration period of 30 min the first group of test persons and after additional 30 min the second group of test persons were exposed. The study has been performed in a strict double blind design. While significant effects on the measured parameters were observed depending on time ('calming' effect), no significant difference was observed between exposure and sham exposure to microwaves. In view of the small scatter of the data the present study rules out physiologically relevant effects of low level energy on the autonomic nervous system and cardiovascular function.

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In-vitro comparison of different slice thicknesses and kernel settings for measurement of urinary stone size by computed tomography

et al. 2019

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Insensitivity of cardiovascular function to low power cm-/mm-microwaves

Kantz

Müller

Hadeler

et al. 2005

International Journal of Environmental Health Research

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A previous study failed to disclose an effect of short (15 min) exposure to low level energy microwaves (3 microW/cm2) emitted by a commercially available automobile radar system (77 GHz) for adaptive cruise control (ACC) on cardiovascular function. The present study explored whether a 15 min exposure to higher level energy microwaves of frequencies varying from 5.8 to 110 GHz influences cardiovascular function. To this end heart rate, skin temperature (thermocouple), skin conductance (Ag/AgCl electrodes), systolic and diastolic blood pressure (automatic cuff) were recorded in 50 test persons before, during and after a 15 min exposure to a sequential pattern of microwaves varying from 5.8 to 110 GHz (59.7 microW/cm2). After an equilibration period of 30 min the first group of test persons and after additional 30 min the second group of test persons were exposed. The study has been performed in a strict double blind design. While significant effects on the measured parameters were observed depending on time ("calming" effect), no significant difference was observed between exposure and sham exposure to microwaves. In view of the small scatter of the data the present study rules out physiologically relevant effects of moderate energy (59.7 microW/cm2) microwaves varying from 5.8 to 110 GHz on cardiovascular function.

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Y-Ba-Cu-O thin films as active high power switches

Heinrich

Müller

Hiebl

et al. 2001

IEEE Trans. Appl. Supercond.

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J. A. Müller

Influence of low power cm-/mm-microwaves on cardiovascular function

In-vitro comparison of different slice thicknesses and kernel settings for measurement of urinary stone size by computed tomography

Insensitivity of cardiovascular function to low power cm-/mm-microwaves

Y-Ba-Cu-O thin films as active high power switches

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