In part this discrepancy appears to relate to far greater sensitivities to low-frequency EM fields [EW: ELF, that is, the "entrainment" frequencies] and to RF fields with low-frequency amplitude-modulation [EW: this includes radar hearing signals] than to imposed step functions or DC gradients [EW: common with contact electrodes, not of interest in mind control at a distance] used in many electrochemical experiments and models to test levels of cooperativity in biological systems. (Blank, 1972) [EW: In plain language, both entrainment (ELF) fields and pulsating radar-like (RF) fields are a hell of a lot more influential on cells than some experimental work using DC and electrode methods.] Page 95: [EW: This section is not part of the demonstration that EM signals can be biologically amplified, as above. It's main interest is that a magnetophosphene "gun" was under consider- ation by the U.S. National Institute of Justice in 1993, along with a "fever" gun and a "convulsion" gun, both using micro- wave technology. As of 1999, nothing has been heard from NIJ on this development, however, page 95 here suggests that such a microwave weapon is feasible.] Magnetophosphenes An effect of time-varying magnetic fields on humans was first described by d'Arsonval (1896) [EW: Anyone doubt there has been some progress since 1896?] is the induction of a flicker- ing illumination within the visual field field known as magnetophosphenes. This phenomenon occurs as an immediate response to stimulation by either pulsed or sinusoidal magnetic fields with frequencies less than 100 Hz, and the effect is completely reversible with no apparent influence on visual acuity. The maximum visual sensitivity to sinusoidal magnetic fields has been found at a frequency of 20 Hz in human subjects with normal vision. [EW: Radio signals are a combination of electric and magnetic fields. To radiate a 20 Hz signal would require such huge antennas that it is impractical to do so. I'd recommend that if someone has the facilities and skills, I'd try some VHF (or microwave) pulsing at 20 Hz on an RF carrier at, say, the 2-meter (144-148 MHz) ham band with a duty cycle, say, of 20% pulse-ON time.] Up to Contents -51-