Pulse Fusion .
Andre Willers
22 Apr 2014
Synopsis :
We combine pyroelectric fusion with the humble magnetron to
produce pulse fusion . There is a positive energy yield . Energy output can be
designated .
Discussion :
1.Pyroelectric fusion .
See Annexure A .
Been done . But the net energy is negative .
2.Magnetrons .
See Appendix B .
Your microwave .
3. Magnetron Fusor .
3.1 Substitute piezoelectric electron emission for heat
electron emission . See Appendix A .
3.2 Spicules of piezoelectric material in the cavities and
on the central cathode . See Appendix B
3.3 The cavities can then be filled with Deteurium rich
gases .
3.4 Once the electric fields in the cavities exceed about
7x10^11 V/M , fusion occurs .
3.5 Due to the rotating , repetitive design if the magnetron
, positive energy yields are likely .
3.6 Combined with a Hilsch-tube design , you have a nifty fusion driven
rocket .
3.7 Or the output could be simply EM at a chosen frequency .(x-ray
laser)
3.8 Or the output could be a beam of neutrons (neutron
laser)
3.9 Or simply electrical power .
Ping !
Andre .
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Appendix A
Fusion :
After the
significant breakthrough in 2005, when researchers at UCLA introduced what's
unofficially referred to as "tabletop fusion," fusion research,
particularly research in pyroelectric fusion, is now on the rise. This
breakthrough had enormous implications: by gently heating a pyroelectric
crystal in a deuterated atmosphere, one can generate fusion under desktop
conditions. [1] Prior to that, attempts to produce fusion in a
room temperature solid-state setting,
including "cold" fusion and "bubble" fusion, have met with
deep skepticism. [2] Now, however it has been show that pyroelectric crystals
have been shown to be useful materials for the production of low-cost, portable
X-ray sources. [3]
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Appendix B
The magnetron is solid state device that uses electric and
magnetic fields , with material cavities , to stutter at a certain frequency .
Microwave ovens are about 65% efficient . Quite good ,
actually .
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