As stated in previous chapters the left index finger is the only finger that can be used to reliably receive and transfer a meaningful wave pattern. A pattern that cannot be manipulated or changed by the brain. For a long time the reason remained a mystery that was solved only recently. The revelation originally came through tracing the connection between a disturbed code receptor in the centre whorl of the left index finger and an associated receptor that was similarly disturbed, in the left temple communication centre. The story was retold in many similar cases. Again deviations helped fit another piece to the puzzle. By the same token, a soft left index finger that lacks elasticity and strength is indicative of disturbed code receptors in the communication centre.

What comprises a communcation centre? Each communication centre has a brain receptor, an eye receptor, a heart receptor and a group of code receptors (see photos). Normally, the code receptors in the communication centre are aligned to a person's Vivaxis, but if another wave is introduced, a few of them have the ability to realign under the influence of the new wave. These specialized communication code receptors have a wide angular range of momentum spin, 35 to 65 degrees which appears to be common to most people. Code receptors located in the left index finger also have the same angular variation of spin. This apparently is the key to the ability to communicate and receive wave patterns from other magnetic influences.

The left index finger is intimately connected to the communication centre located near the left temple. Therefore, I use this particular centre for many tests to record the reception of waves.

We have mentioned the communication centre on the left hand between the thumb and forefinger. There is a network of code receptors in this particular location and about half of them have the ability to temporarily realign to a wave introduced through the left index finger, while the remainder stay aligned to one's Vivaxis. A wave vector taken from a centre point of this area can reveal many things and is a fascinating illustration of the workings of our inner communication system. The right hand has no similar communication centre in the corresponding area.

We have used this part of the left hand as a lie detector in many conclusive tests. We ask the participant being tested to spell a simple word silently to himself. The angle wire receives the stimulation from a brain receptor in this communication centre and it alternates back and forth if he spells the word correctly. However, if he deliberately spells it wrong, a disturbed circulating energy pattern is recorded.

Another interesting test is to have the participant concentrate on her spine and mentally follow down each section very slowly. The tester reads from the centre point of the participant's left hand communication centre and forms a circuit link between the two. There is a normal reversal of energies as her mental traverse reaches the waistline, which is indicated by the recording wire making a single turn.

If, in her mental tracing of the spine, she traverses a malfunctioning area, it is immediately recorded by the angle wire with a typically disturbed circulating motion. Temporarily, the wave tester has the disturbance recorded in the circuit of his own corresponding area, and by immediately testing his own spine he can determine where the disturbance is located. The question then arises; is the disturbance in his circuit or the participant's? The tester first grounds out the other person's wave by pressing his hands on a solid surface and then rechecks the area in question on his own spine. If the disturbance really belongs to the tester, the wire will again show a disturbed circulating pattern; he should take the precaution to test himself while counting with his eyes closed. If the wire shows no disturbance then the trouble is in the participant's spine. The tester can now test the same area of the spine on the other person and confirm.

This is a roundabout way to locate energy disturbances and it would have been much quicker to ask the participant what vertebra she had reached mentally, when the recording wire showed the disturbed pattern. But the method has illustrative value and is a good example of the linking of circuits.

An X-rayed bone will show up as a wave confliction and we have used the method just described for detecting small X-ray areas that have not been erased, especially in the dorsal portion of the spine.

Underlying Causes Of The Communication Circuit Disturbances

Distressed brain and code receptors in the communication systems are sometimes the cause of an individual's energy circuit disturbance. In addition to foreign radiation, they become a further hurdle preventing him from being able to test his own receptors.

Mental frustration can trigger a disruption to the code and brain receptors. When the frustration is slight, the disturbance to the receptors is temporary, but a prolonged condition usually results in the chronic disruption of one or more of the code and brain receptors.

Treatment with strong magnets generally produces a foreign alignment in a number of the brain receptors, resulting in a wave confliction in the main communication circuit. A critical illness accompanied by excessively high fevers is another cause of disturbances within communication circuits. Contact or magnetic healing may save a life, but a new and foreign alignment is sometimes introduced into one or more communication centres; in the latter case the person will have two Vivaxes instead of one. Virus infections, accidents, anesthetics, overexposure to the harmful effects of strong electronic equipment are other elements that cause code and brain receptors to become out of phase in the communication centres.

We employ a "test yourself" exercise in seminars, so the student may detect his own brain receptors that are out of phase; possibly, it would be more accurate to say, if the code receptors immediately adjacent to a brain receptor are out of phase. For in this test the brain receptor is dependent upon the pattern of magnetic energies in its associated code receptors: the three work as a unit. When a person thinks of a direction, each brain receptor in the communication centre has a wave vector travelling in that direction. Also, one of the code receptors associated with the brain receptor realigns to the same direction, but the other code receptor remains aligned to his Vivaxis.

A person with X-rays in the right arm or hand many find interference, depending on the location of the X-rays, relative to the brain receptors located down the arm and thumb. As the brain is the instrument in this particular test, those with X-rays in other parts of the body can often do this exercise effectively without noticeable interference.

The student stands out of his channel with feet apart and spine erect. His left arm is bent slightly at the elbow with the hand extended in a horizontal position and the recording wire is held correctly in his right hand. The student may turn his head in any direction throughout the test. One of the objectives of the test is to show the participant his brain alone can control the recording wire when no other wave is introduced into the atomic structure of the wire. He thinks of a direction and the angle wire in its copper sleeve turns into that direction. We usually select eight points, scattered around the full circle of the room, two in each quadrant. In order to avoid magnetizing the wire during tests, we request the student to direct his wire to points chosen at random and not to continuously pursue one direction of rotation. We also suggest that he concentrates on the direction for a period of about six seconds before proceeding to the next point, in order to be sure of his brain control.