The transition into subspace engineering methodology has opened a vast new world of energy applications, material sciences, propulsion technology, agricultural systems, lifestyle tech and much more. We have only begun to scratch the surface. The Subspace Institute exists as a way to introduce the general theorem publicly and to develop the initial most-direct technological applications that our team is working on, for the purpose of licensing these technologies and boosting the educational endeavor with that revenue. The institute is currently growing and if you would help the cause by buying some of the coin, you can actively join the transition to a new era of technological prosperity. Below are a few of our current projects.
Not only can heat be harvested directly from the atmosphere, generating electricity, (while causing a much needed cooling effect to our climate), but the coming temperature-filtering material can also be used to heat and cool houses, vehicles and even clothing.
Earth's atmosphere is a mix of gas temperatures, some superheated by the sun and some supercold, which together we measure as being the average temperature of the two. James Clark Maxwell suggested a device that could separate the two temperatures of gasses, thus directly harvesting the heat given by the sun, in a process many times more efficient than photovoltaic cells and works all night and on rainy days. When the "information-sorting action" is an engineered material geometry, taking advantage of the kinetic geometry of the quantum systems, (not a "computing" device that uses energy directly to sort), there is no longer a paradox since the "sorting energy" is the structure of the matter. Just as a chimney uses natural physics to "sort" the hot air, (directing it upward), the knowledge of the sub-quantum geometry allows the structure to do the work.
Single-atom graphene is used as an antenna surface to transmit low intensity photon packets with "sculpted' phases, which alters the field between carbon atoms to act as a filter for gas molecules in earth's atmosphere. The entropy "information problem", in the applied solution is a simple matter of wear and tear on the materials.
We are currently working on solving the water vapor problem with pre-filtration solutions and addressing developments in low-cost industrial-scale graphene production.
The primary advantage to having a map of particle vector-dynamics on a sub-quantum scale is the ability to induce dark energy to pair production manually and at low energies.
If you suggested to the ancient Greek philosophers that the tiny "atoms" they theorized about could be induced to break apart and release the energy that they were constructed from, they might eventually believe you, but it would hard to believe that it could be done with less energy than the material withstands on a natural basis. It would be even harder to believe the process would release more energy than was required to break the particles apart. But that process is already scientific history.
The energy of the universe is quite literally pinned-together by information, (geometric dynamics). The energy in any shape is configured so that it exhibits strength in the interactions in its natural context. With knowledge of its geometry, no shape is strong when the dynamic approaches the configuration where it is not strong. The inverse is also true. A child could break every toothpick in a box, but the same toothpicks lined up together parallel can withstand thousands of pounds of pressure. Actions that are guided by accurate information can circumvent the classical requirements found in nature. The laws of conservation, when extended to dark matter and dark energy, open up unimaginable new opportunities.
We are in the initial stages of developing micro antenna geometric arrays that allow low-energy photons to work together to induce production of higher energy geometries.
The still theoretical next logical step in pair induction is field negation, whereby materials with specifically designed phases of EM emission can create a barrier which negates the effects of a field on the matter beyond it, (in known field strengths e.g. gravity/electromagnetics).