◆ SpookStack

Approved For Release 2000/08/10 : CIA-RDP96-00792R000300020002-1 LN465 -92 molten state where the laser line hits then. When the light is gone, these places can become noncrystalline through rapid cooling. If they are once more shone upon with a wide pulse low energy laser, the non crystalline structure can be changed back to crystalline?. The examples above illustrate that under the effects of certain forms of energy, there can be shifting back and forth between solids. From modern science, we believe that we can hypothesize that under the effect of ESP, erystals are subjected to a certain type of ESP radiation similar to that of a laser or ion injection. This type of ESP radiation is a type of matter and it has the nature of matter. It has relatively strong energy. It can effect the shifting of some lattice points, thus affecting or destroying the long term cyclical regular arrangement of the original crystalline lattice, causing the long range ordered overall monocrystal erystalline lattice change to microcrystalline. This is to say, through the effects of ESP, the monocrystalline silicone is caused to change into oriented microcrystalline. Oriented microcrystalline free energy positions are between crystalline and non-crystalline states, and are higher than those of crystals and are also a type of quasi stable state. Due to the oscillation of the crystalline lattice, after a period of time, it is caused to revert back to its original state. This is the relaxation process. In this manner, it changes from a quasistable oriented microcrystal to a more stable monocrystal. Looking at current experiments and the attempts in the discussion above, we still know too little about the effects of ESP of erystalline structures. In order to further study this, a great deal of work has yet to be done. First of all, it will require the capture of even more Positive examples and detailed examination of the relevant phenomena, including the use of different instruments to analyze the test samples and having the experiments repeated by different persons with ESP abilities. This is especially so because the changes are not permanent. In addition, follow up experiments can help us understand the patterns of some of the changes, and the follow ups should start quickly and the intervals between the follow up experiments should be’ shortened, repeating the effects on the objects in which changes have been generated, to test whether or not Permanent changes can be generated. This is very significant work. Because it provides convincing evidence for whether or not ESP can affect crystalline structures. Finally, there should be ion injection and iaser Simulation experiments conducted with the results compared to those of ESP experiments. This would be of positive significance in clarifying the questions. BIBLIOGRAPHY 1. Lin Shuhuang et al, “ESP Research", No. 2 (1984), Pp 61. Chen Zuyin et al, “Journal of Biophysics", No. 3 (1987), pp 33. Luo Xin et al, “ESP Research", No 3 (1985), pp 13. 30 Approved For Release 2000/08/10 : CIA-RDP96-00792R000300020002-1