PSI Vol.17, No2 December 1995 Thesis 2. pp.10-16.
A Quantum Mechanical Description of Qi and ESP Phenomena
Tiejun Miao* and Shigemi Sasaki**

Abstract
Along with the considerationsof notion of Qi and its threeconnedions to Quantum Mechanics, a assumption that Qi is expressible by quantum wave function is Proposed. According to Schrödinger equation, the wave function ψ(r, t ) at certain space r and time t follows the formalism ψ(r, t )Ω g (t, t' ) ψ(r' ,t' )d r'. This predicts a holography property of Qi, e., any part of a space Ω filled up with Qi contains all information on the whole space. Rewriting Schrödinger equation into an operator form, the holomovenlent of Qi is analyzed in terms of theconcepts of implicate order and metamorphosis suggested by David Bohm. Regarding cpmplementary connedion between matter and Qi as analogous to the relation between "particle" and "wave" governed by complementarity principle, Qi is attributable to "wave" properties with implicate order, while matter is attributable to "particle" with explicate order. By fllrther comparison with bonding processesin the formation of molecule from atoms, quantum mechanical description of Qi gives an interpretation of ESP (Exceptional Sensor Perception)phenolnenabased on correlated interactionsof Qi. lt concludes that, when bonding interadion between subject and target is strongenough, a certain perceptual channel will appear and leads to extraordinary perceptions like as telepathy, dairvoyance, or inner-viewing.
* The Univercity of Eletro-Communications, Tokyo 182, Japan
** The Life Phenomena Laboratory, Tokyo 193, Japan
PSIJ top