Very compact particle accelerators reverse engineered from very advanced extraterrestrial UFOs provide means for interfacing with hyper-dimensional space
India Daily Technology Team
Oct. 21, 2005

Scientists understand that the easiest way to interface with the hyper-dimensional space and take technologies to the next higher level is through the use of efficient and portable particle accelerators. It can provide endless source of Zero Point Energy, it can provide vehicle speed unimagined before, it can even provide means for time travel and using wormholes for traveling out of our physical universe.

Scientists have used existing terrestrial technologies and reverse engineered extraterrestrial technologies to create compact miracle devices – the particle accelerators of the size of suitcase.

These systems vary in size and diversity, and they include large installations such as the Spallation Neutron Source under construction at Oak Ridge National Laboratory, and smaller photoneutron sources such as that at the Gaerttner Linear Accelerator Laboratory at Rensselaer Polytechnic Institute. Among the various light-ion accelerators, compact devices designed as hermetic, sealed tubes that use deuterium–deuterium (D–D) and deuterium – tritium (D–T) reactions have found the most widespread use in industry.

At the moment non-classified accelerators generate neutrons of ~2.5 and ~1400 MeV, respectively. Thousands of such small, relatively inexpensive systems have been built and the number and variety of their applications are growing steadily. Scientists are working steadily upwards to reach the stage of breaking into the world of virtual materials and zero point energies in the realm of Hyper-dimensional space.

The basic design of a modern compact accelerator neutron generator (Figure 2) does not vary much from those of other particle accelerators. It consists of a source to generate positively charged ions; one or more structures to accelerate the ions (usually up to ~110 kV); a metal hydride target loaded with either deuterium, tritium, or a mixture of the two; and a gas-control reservoir, also made of a metal hydride material. The most common ion source used in neutron generators is a cold-cathode, or Penning ion source, which is a derivative of the Penning trap used in Penning ion gauges. This simple ion source consists of a hollow cylindrical anode (usually biased 1–2 kV) with cathode plates at each end of the anode (usually at ground potential). An external magnet is arranged to generate a coaxial field of several hundred gauss within the ion source. When deuterium and/or tritium gas is introduced into the anode at a pressure of a few millitorr, the electric field between the anode and cathodes ionizes the gas. Electron confinement is established in this plasma because of the orientation of the electric and magnetic fields, which forces the electrons to oscillate back and forth between the cathode plates in helical trajectories. Although some low-energy electrons are lost and strike the anode, which creates more secondary electrons, most remain trapped and ionize more gas molecules to sustain the plasma. The ions are not similarly trapped, and when they strike the cathodes, they also release secondary electrons, which enter the plasma and help sustain it. Ions, however, can escape the chamber into the acceleration section of the tube through a hole at the center of one of the cathodes, called the exit cathode.

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