I'm constructing a device to accelerate free electrons liberated from a low working function electrode by laser radiation, using High voltage fields and having pure oxygen flow under small vacuum between the electrodes. I want to achieve with this high energy collisions between the free electrons being liberated and accelerated and the oxygen atoms, that can liberate up to 3 or 4 electrons for each oxygen atom - this liberated and accelerated electrons are extracted by high voltage diodes and enters a tank circuit where they will be reused or recirculated causing heat to be dissipated on the inductor wire. This tank circuit is a LCR Parallel very high Q circuit able to recirculate up to 20Amps at about 20kv. The energy supplied to the system is about 20W to the tank circuit pll driver that drives a impedance match transformer witch resonate the tank. And about 5 watts for the laser witch are pulsed in sync with the tank circuit frequency.
What i need Is to find investors and interested people with some knowledge i'm missing to be able to finish the working prototypes.
I started studying this 3,5 years ago and as i was only a guitarist i had to follow the MIT open course "chemistry, Physics... To be able to understand what i really needed to to to achieve my objectives.
I believe this prototypes will be able to create a very high recirculating power and that its going to be able to recirculate about 365 times more power than its input power, accordingly with simulations that we have being doing here and practical tests.
If you are interested in helping on the calculations and or invest in this project feel free to ask any questions.
The calculations for the resonant tank are ready and have being confirmed on simulations. http://www.energeticforum.com/attac...-meyer-true-stanley-meyer-calculation.xls.pdf Its an Exel file you must change from pdf to xls
This is the pll design and tank description drawing http://www.energeticforum.com/attac...3801-stanley-meyer-true-pll-simple-design.jpg The only difference is that now i'm using a irfp250 transistor instead of the transistors showed there. The diodes in my descriptions are two and are to be connected to the tank as frequency doubler or full wave rectifier and than connected to the anode in the collision cell.
We need to be able to calculate how much an electron will be accelerated in a determined electric field. For an example: 20kv. And to understand the relation acceleration will have against kv/cm or distance.
I thank you in advance.
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What i need Is to find investors and interested people with some knowledge i'm missing to be able to finish the working prototypes.
I started studying this 3,5 years ago and as i was only a guitarist i had to follow the MIT open course "chemistry, Physics... To be able to understand what i really needed to to to achieve my objectives.
I believe this prototypes will be able to create a very high recirculating power and that its going to be able to recirculate about 365 times more power than its input power, accordingly with simulations that we have being doing here and practical tests.
If you are interested in helping on the calculations and or invest in this project feel free to ask any questions.
The calculations for the resonant tank are ready and have being confirmed on simulations. http://www.energeticforum.com/attac...-meyer-true-stanley-meyer-calculation.xls.pdf Its an Exel file you must change from pdf to xls
This is the pll design and tank description drawing http://www.energeticforum.com/attac...3801-stanley-meyer-true-pll-simple-design.jpg The only difference is that now i'm using a irfp250 transistor instead of the transistors showed there. The diodes in my descriptions are two and are to be connected to the tank as frequency doubler or full wave rectifier and than connected to the anode in the collision cell.
We need to be able to calculate how much an electron will be accelerated in a determined electric field. For an example: 20kv. And to understand the relation acceleration will have against kv/cm or distance.
I thank you in advance.
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