Author: Machi T//Liu C//Wang C//Wang B
Affiliation:
Graduate School of Engineering, Electronic Engineering, Tokyo Denki University (Tokyo, Japan)
Conference/Journal: J Intl Soc Life Info Science
Date published: 2002
Other:
Volume ID: 20 , Issue ID: 2 , Pages: 345-372 , Word Count: 341
We carried out clairvoyance experiments and obtained several physiological values to clarify the phenomenon of clairvoyance. We found that the subject’s sympathetic nervous system acted strongly and that her parasympathetic nervous system strengthened instantaneously. At this time, the blood flow in both her neck and forehead increased. Furthermore, her blood pressure increased, and the oxygen level in the blood decreased. We thought these effects were due to her brain’s consumption of so much oxygen as well as energy. A vibration phenomenon was found in the GSR data. EEG topography showed that her visual area and the frontal lobe became active when this phenomenon appeared. The electrical potential of those areas rose quickly; when the potential between two points rose, those points were connected. We found that the physiological data changed greatly when the activity of the right side of the brain became high, particularly in the frontal lobe. We also conducted an another experiment in physiologically moving an object without any physical contact. When she showed her skill, the oxygen density in blood decreased, and it was similar to non-visual recognition, even if the blood flow in her neck increased. As for the time that she was in the practice period, the temperature of her left hand and her left foot decreased. In the time when she used her power, her state of breathing changed. The vibration phenomenon seen in the GSR data appeared in this experiment. This vibration frequency was in the domain of ¶ wave for brain waves at 1.4 Hz. Brain waves such as an EMG were sometimes seen, and ¶ waves appeared powerfully, though a short time at a area with a possible period. These ¶ waves occurred in the middle of her left frontal lobe and her temporal field, and a range active at the left coronal section of the head opened. It is thought that when the object moved to other place, action potential of the ¶ waves were the highest. Although non-visual recognition occurred in her right brain, this activity domain during moving a pill was reversed.