Research conducted at HMI suggests the heart’s field is an important carrier of information. The heart’s magnetic field can be measured several feet away from the body by sensitive magnetometers. Furthermore, the magnetic field produced by the heart is more than 100 times greater in strength than the field generated by the brain and can be detected up to 3 feet away from the body, in all directions, using SQUID-based magnetometers (Figure 6.1).įigure 6.1 The heart’s magnetic field, which is the strongest rhythmic field produced by the human body, not only envelops every cell of the body, but also extends out in all directions into the space around us. This field, measured in the form of an electrocardiogram (ECG), can be detected anywhere on the surface of the body. The heart’s electrical field is about 60 times greater in amplitude than the electrical activity generated by the brain. The heart is the most powerful source of electromagnetic energy in the human body, producing the largest rhythmic electromagnetic field of any of the body’s organs. In this section, we discuss how the magnetic fields produced by the heart are involved in energetic communication, which we also refer to as cardioelectromagnetic communication. The ECG and MCG signals have since been shown to closely parallel one another. ![]() ![]() A remarkable increase in the sensitivity of biomagnetic measurements has since been achieved with the introduction of the superconducting quantum interference device (SQUID) in the early 1970s. The first biomagnetic signal was demonstrated in 1863 by Gerhard Baule and Richard McFee in a magnetocardiogram (MCG) that used magnetic induction coils to detect fields generated by the human heart. Find a Certified HeartMath Professional.
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