Make your own free website on

Phoenix Crossing

Gallery of Art

About Us
Contact Us
Gallery of Art
Tech Notes




Vasimir style futuristic propulsion.


High heat capacity polymer with nano-solution pumps pulsing into laser bored material before polymer chrystallization.  Nano-oscillators control the heat transfer in the material  by frequency shift keying at the specific rate of heat conversion through the material.  Nano-solution controlled by rf tuners just outside of Cambridge laser bored material.


Two scalar devices measure magnitude angle of electromagnetic field with xenon bulbs from Hamamatsu.  The central sphere is designed to keep a bead of mercury in motion inside of a circular grid of equally distributed points that are lined up with loaded nodal switchpoints in association with the electrical conductivity of mercury and the central spheres ability with gold electrodes and a specialized heating instrument with iron shielding.  The grid copies the nodal points to a location located in the equally destributed gold electrode points in an x to y switch, as far as direction.  The device is designed to have the mercury bead follow the x to y switch path.  Initially design is for testing particle entanglement from a fixed x to moving y single photon study.  A single sodium atom is bound to a single photon with a push button photon firing sequence(GVSU current research).  The bound sodium atom pulses to a grid as a fixed x is simulated as sodium chlorate in a Bose Einstein condensate(MIT) time matched to the bound sodium atom.  The grid is a 10X10 point a1,b2 type grid, an index chip that matches the impact position of the sodium atom to the equadistant gold electrodes in the sphere.  This is designed to have the mercury bead follow the 10X10 grid position of the sodium atom.   Then gauge any change in the fermionic activity of the Bose Einstein condensate.