Making Metallic Hydrogen at Harvard

Nearly a century after it was theorized, Harvard scientists have succeeded in creating metallic hydrogen. In addition to helping scientists answer fundamental questions about the nature of matter, the material is theorized to have a wide range of applications, ranging from room-temperature superconductors to powerful rocket propellant.

Breakthroughs such as this may be a sign of things to come regarding research into condensed matter and nuclear reactions with hydrogen at the atomic level; including LENR and other metallic lattice assisted nuclear reactions (LANR).

New Brillouin Energy Patent

We’ve written several articles on Brillouin Energy and its founder, Robert Godes.  Based in Berkley, California, this company continues to make great progress with very little fanfare. Robert Godes has the industry’s most credible LENR theory, Dr. McKubre of SRI has stated Brillouin is the closest organization to commercializing an LENR product, and Godes has engineered an ingenious nickel-based wet and dry boiler system that drives the underlying physics of LENR.

“Robert {Godes} can hold his own again the top physicists in the industry, as well as chemical engineers and nuclear engineers, and he can blow them all away.” – Robert “Bob” George

The Godes-Brillouin Theory is based on a controlled electron capture reaction.  Hydrogen is loaded into a nickel matrix where an electronic pulse (Q-pulse) is passed through the system, resulting in a compressed lattice within the constrained system.  Mass is created and a proton is converted to a neutron, causing a tremendous loss of energy in the system.  Godes describes this process as a “nuclear freezer.”  Protium is converted to deuterium, deuterium is converted to tritium and tritium is converted to quatrium, resulting in a net energy out as the quatrium rapidly beta decays and Helium-4 and heat is released into the system.

Key to the Brillouin system is the use of proprietary electronics and controls designed by Robert Godes, an inventive electrical engineer.  Interestingly, a patent was recently issued to Brillouin Energy Corporation and published on January 7, 2014 for a high-speed gate switching system.  Referred to as a Gate Hyperdrive system, it reportedly improves the efficiency of any conventional electronically controlled electric motor, inverter or other power conditioning equipment by about 25%.

Abstract
Techniques for overcoming many of the speed limitations of switching a gated device while protecting the device from damage provide a dynamic driving voltage to the gate of the device being switched. This dynamic voltage provides a way to overcome the complex impedances between the drive point and the actual gate allowing faster switching speeds. This dynamic driving voltage is provided by starting with a fixed amount of charge at a higher initial potential. The fixed charge and voltage are chosen so as not to exceed the device’s specified maximum gate current or the device’s maximum voltage between the gate and the source (punch-through voltage).

Brillouin expects to develop a system that can return 10 watts of thermal energy for every 1 watt of input electrical energy.  If successful, this technology could be tremendously disruptive in the fossil fuels energy industry.