<p>Electric field sensor locations on the scalp and their orientations (red for inclination, cyan for azimuth) are shown in the left panel. Magnitude of the tangential component of the electric field on the scalp surface produced by (nearly) radial and tangential cortical sources are shown in the middle and right panels.</p
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
Introduction Numerical field calculations for brain stimulation based on realistic head models have ...
<p>Scalp, skull, CSF, and brain shells are shown in different colors from the outmost to the inmost ...
We introduce the notion of Electric Field Encephalography (EFEG) based on measuring electric fields ...
We introduce the notion of Electric Field Encephalography (EFEG) based on measuring electric fields ...
The present chapter gives a comprehensive introduction into the display and quantitative characteriz...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Representations of the active cell populations on the cortical surface via electric and magnetic mea...
The common way of measuring electrical activities of the human brain due tobody functions is to plac...
Electrical source imaging (ESI) aims at reconstructing the electrical brain activity from scalp EEG....
<p>Since the conductivities of the head (gray layer), the outer skull (blue layer) and the inner sku...
Monitoring the electrical activity inside the human brain using electrical and magnetic field measur...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
Introduction Numerical field calculations for brain stimulation based on realistic head models have ...
<p>Scalp, skull, CSF, and brain shells are shown in different colors from the outmost to the inmost ...
We introduce the notion of Electric Field Encephalography (EFEG) based on measuring electric fields ...
We introduce the notion of Electric Field Encephalography (EFEG) based on measuring electric fields ...
The present chapter gives a comprehensive introduction into the display and quantitative characteriz...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Representations of the active cell populations on the cortical surface via electric and magnetic mea...
The common way of measuring electrical activities of the human brain due tobody functions is to plac...
Electrical source imaging (ESI) aims at reconstructing the electrical brain activity from scalp EEG....
<p>Since the conductivities of the head (gray layer), the outer skull (blue layer) and the inner sku...
Monitoring the electrical activity inside the human brain using electrical and magnetic field measur...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
Colored field maps for the D-B80 coil (top row) and for the H7 coil (bottom row) showing electric fi...
Subject-specific four-layer boundary element method (BEM) electrical forward head models for four pa...
Introduction Numerical field calculations for brain stimulation based on realistic head models have ...
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