Imaging Systems For Seeing Through A Hull Of A Space Craft
You can use feldspar as your superconductor. Use zinc subatomic
superparticles to rush out through the positively charged feldspar
superconductor as zinc subatomic kids have a wide dispersal range.
Likewise, use zinc subatomic superparticles, the negatively charged
ones, and send them down the negatively charged side of a feldspar
superconductor.
The energies need not be very high, for local viewing, but they need
to be high enough to penetrate a seven foot thick titanium /
molybdenum alloy space craft hull.
They will bounce off whatever is out in the viewing field and they
will shift charges. Once they shift charges, the once positively
charged superparticles that are now negatively charged, will find
their way back into the negatively charged feldspar superconductor.
As they come back in through the negatively charged superconductor,
you will need an optics imaging package that is likewise negatively
charged for intercepting them, and for then clearing up the haziness,
the bluriness, the sharpness, the contrast, and so on.
You will need two optics imaging packages, one negatively charged for
receiving the negatively charged zinc super particals kids, and then
one positively charged to route the image into for further cleaning up
of the image, and then for routing it to an LCD monitor.
You might want to use fiber optics in between the two imaging
packages.
Three or four ounces of feldspar should be enough for a superconductor
for your optics setup.
The amount of energy needed is in the area of forty five thousand
volts to penetrate a seven foot thick titanium / molybdenum hull
efficiently.
The super partical kids you'll want to use, as I mentioned, are the
zinc kids.
For display, you can hook up a typical LCD monitor for display of the
image as you clean it up, and make it more discernable with your
optics imaging equipment.
If you use the right types of optics imaging packages, you can use
this kind of system for viewing distant planets.
With the bright minds out there, the scientists working for Bell and
Howell, or Sony, Casio, and so on, and with the bright minds of the
students in high schools and universities, among you, there should be
plenty of people who will be able to figure out how to get an image
from the particles that come back negatively charged at you and at
your negatively charged feldspar superconductor.
John Ayres
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