On 30 Jul 2005 at 8:56, Frederick Sparber wrote:
> Thefluorescent lamp has a 253.7 nm and 184.9 nm mercury UV
> and lower energy UV that isn't supposed to get through the
> phosphor, glass, and air at close range.
> OTOH, if the Mills Hydrino-Type "Fractional Orbit" in the
> argon/mercury or phosphor/glass is being formed, there
> could be some KeV (soft X-Rays) coming out.
>
> A concentic tube calorimeter around a standard bulb would be
> a start.
>
> Frederick
>
Here is a copy/paste of a related message from the freenrg-l list:
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You might also be interested in knowing about the Imris' circuit
(US patent #3,781,601):
http://tinyurl.com/9fc9f
:: An optical generator of an electrostatic field at light frequencies
for use in an electrical circuit, said generator having a pair of spaced
apart electrodes in a gas-filled tube of quartz glass or similar material
with at least one condenser cap or plate adjacent one :electrode and a
dielectric-filled container enclosing the tube, the generator
substantially increasing the electrical efficiency of the electrical
circuit.
:: An optical electrostatic generator which is effective for producing
high frequencies in the visible light range of about 10^14 to 10^23 Hz.
:: The present optical electrostatic generator does not perform in
accordance with the accepted norms and standards of ordinary
electromagnetic frequencies.
:: The device can be used in a flourescent lighting circuit, with motors,
flash lamps, high speed controls, laser beams, high energy pulses,
electrostatic particle precipitation, chemical synthesis (such as ozone
generation), and charging means for high voltage generators of the
VandeGraph type, as well as particle accelerators. . . .
:: The device removes the component of electricity which produces heat.
For flourescent lighting, Imris shorted the pins on the ends of the
tubes, indicating that the filaments are not used, or necessary.
At higher pressures, the device becomes Over Unity. For instance,
with a Xenon filled tube at 5,000 torr in a series circuit with 100 x
40 Watt fluorescent lamps (with a single wire going to each end of each
lamp), the optical generator pulls 332 Watts, with each lamp pulling 9
tenths Watt (at 5 Volts) for 3,200 lumens output (8.8 Watts) per tube -
giving a total for the circuit of 880 Watts output for 442 Watts input.
As far as the compact flourescents - what I call the Scalar light
bulb - I know someone who is using the circuits to power normal
flourescent lamps, so you might try one of the circuits with a burned
out tube.
If the voltage pulse it puts out can jump the break in your filament,
it might still work. If not, try reversing the tube, on the chance that
only one filament is bad, in case the two outputs of the circuit are
different. If all else fails, try putting an interruptor in the AC line
going to the circuit.
Regards,
Jerry
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The dimensions given in the patent example are very similar to one
of those 8Watt fluorescent tubes!
Mark Jordan
