◆ SpookStack

Approved For Release 2000/08/10 : CIA-RDP96-00792R000300020002-1 LN465-92 The new material indicates that the sympeda not only is expressed in power, but also is expressed in other parameters such as the intensity of resonance and the characteristic frequencies. During the QIGONG state, the resonance intensity distribution of the various regions of the brain also look like a mosaic sympeda. Tt seems that the brain cross structure is a common phenomenon. In many other experiments, we always observed this type of characteristic image. We already have articles summarizing this type of phenomenon®?. Further analysis also indicates that during a QIGONG state, the ratio between the left frontal and the right occipital areas of the brain approaches the golden division rule, which is tending toward 0.618. Furthermore, during the QIGONG state, mosaic sympeda image approaches 0.618 in the forward to rear connecting regions of the brain in the left and right brain, while the normal human brain image has more scattered values (illustration seven). After Sperry discovered the non symmetrical relationship between the left and right brain, there has been a great deal of research work concerning the relationship between the left and = right brains. Our results represent a major qualitative advancement. These results allow analysis of the relationship between the left and right brain to enter a stage of greater detail and precision. From this aspect, the spacial structure of the brain is perfect. DIFFERENT STYLES OF QIGONG HAVE DIFFERENT S SYSTEM CHARACTERISTICS The $4 series resonance dominance described earlier is a common phenomenon of QIGONG, and it occurred in about 80 percent of our experiments. However, in addition to this basic change, in different styles of Q@IGONG there occur different additional dominant series. The clarification this problem will help to differentiate between the different styles of QIGONG. By analyzing the most dominant frequency of each channel, we can see the characteristics of each type of QIGONG. Illustration 8 isa comparison of the recordings of four channels of brain waves of X. S. Q. in five continuously experiments of excitation QIGONG and inhibition QIGONG. From this, we can see that during excitation, the $2 is dominant, as well as the $5 series harmonics (55, 15, 20, 30,...}. During inhibition, the $1 was dominant, as well as the S4 series harmonics ($24, 32, 64). In 12 channel brain wave tests (illustration 3, D throngh H) Yishoubaihui (phonetic} and Yishoudantian (phonetic) were compared. The former saw $5 appear in addition to the S54. In the latter, the 54 series was dominant. During entering tranquility, there was a typical quasicyclical structure (D21, S22 - S43: S21, @52 - $873). In addition, 19 Approved For Release 2000/08/10 : CIA-RDP96-00792R000300020002-1