Author: Adachi Y//Aoki T//Yoshihuku Y//Yoshida K
College of Business Administration and Information Science, Chubu University (Aichi, Japan)//Faculty of Engineering, Chubu University (Aichi, Japan //Kumamoto National College of Technology (Kumamoto, Japan)
Conference/Journal: J Intl Soc Life Info Science
Date published: 1999
Other: Volume ID: 17 , Issue ID: 1 , Pages: 156-159 , Word Count: 123
Many significant biomedical influences on human bodies by an emission from a 80kHz quartz resonance (EQR) system have been observed, but the reason to cause those changes was not known. We thought that those changes could be caused by the vector potential change and tried to evaluate the intensity and the space distribution of the vector potential produced by the EQR system. However the mechanism to produce vector potential by a quartz ball of the EQR system is very complicated, then we simplified it as an AC dipole model in this study. The result is indicating the intensity of the vector potential is in inverse proportion to distance from the quartz; 2.33 x 10-11 Wb/m at 45cm, when the resonant current is 3mA.