Abstract: Apparatus and methods which enable the stimulation of neurons oriented in all directions within a biological structure using applied magnetic fields.
Abstract: Apparatus and methods which enable the stimulation of neurons oriented in all directions within a biological structure using applied magnetic fields.
Abstract: Apparatus and methods which employ a primary source mirror to scan a conductive sample containing an electric current to determine the distribution of currents in the sample, providing location, total magnitude, and direction in three dimensions of each component of the electric current distribution, by means of measuring the magnetic field external to the sample.
Abstract: Apparatus and methods which enable the stimulation of neurons oriented in all directions within a biological structure using applied magnetic fields.
Abstract: Apparatus and methods enabling the improved noninvasive measurement of electric currents flowing in the body of a human being or animal or in a biological sample by way of a modular array of primary source mirrors and a magnetometer.
Abstract: Apparatus and methods to enable the complete detection and assessment of electric currents flowing in a conductive medium not only parallel, but also perpendicular to the boundary separating the conducting medium from a non-conducting medium by means of a magnetometer located outside of the conducting medium itself.
Abstract: Apparatus and methods which employ a primary source mirror to scan a conductive sample containing an electric current to determine the distribution of currents in the sample, providing location, total magnitude, and direction in three dimensions of each component of the electric current distribution, by means of measuring the magnetic field external to the sample.
Abstract: Apparatus and methods enabling the improved noninvasive measurement of electric currents flowing in the body of a human being or animal or in a biological sample by means of a modular array of primary source mirrors and a magnetometer.
Abstract: Apparatus and methods to enable the complete detection and assessment of electric currents flowing in a conductive medium not only parallel, but also perpendicular to the boundary separating the conducting medium from a non-conducting medium by means of a magnetometer located outside of the conducting medium itself.