How to choose correctly THz Astronomy
Introduction to Terahertz Energy Crystal Tube
Crystal energy tubes are created using crystal as the carrier, incorporating various element formulations, natural permanent energy stones, and are formed through high-temperature melting at 1800℃.
The energy tubes stimulate terahertz light waves through thermal energy, generating 10^12 vibration waves per second. This powerful energy, magnetic field, and frequency directly penetrate and conduct through the human body, water, plants, animals, soil, and more, exerting high-energy effects.
Crystal is a rare mineral, primarily composed of silicon with a purity of 99.9999%. It is formed deep underground in magma, through billions of years of tectonic activity, high temperatures, high pressures, cooling crystallization, and other factors.
Crystal is one of the gemstones with strong natural energy. It has the ability to focus, store, transmit, convert, and amplify energy.
The energy of crystal is an incredibly powerful emitter, possessing an extremely stable magnetic field vibration frequency. It can adjust the magnetic field frequency of its surroundings to a normal state.
The unique vibration characteristics of crystal elevate human vibrations to new heights, particularly distinguished by their precise crystal lattice patterns that set them apart from other materials.
We have discovered a method where high-purity silicon is used as the main element, with the addition of other particles or single-crystal lattice structures of different diameters for melting. High-temperature melting alters the structural morphology of silicon as a single-crystal lattice, deeply penetrating at the atomic level and changing its frequency. By arranging different crystal lattice materials in a pyramid shape, we stimulate, convert, amplify, and modify the frequency into terahertz.
Materials with different diameter ratios and formulations of different elements achieve atomic-level fitting with the pyramid within the silicon element through high temperatures. Energy particles rotate at high speeds and accelerate their movement, releasing in the process of generating terahertz waves.
Terahertz crystal material
Crystal is a rare mineral, primarily composed of silicon dioxide, formed deep underground in magma through billions of years of tectonic activity, high temperatures, high pressures, cooling crystallization, and various other factors.
Crystal is one of the gemstones with strong natural energy. It has the abilities to focus, store, transmit, convert, and amplify energy.
The energy of crystal is an incredibly powerful emitter, possessing an extremely stable magnetic field vibration frequency. It can adjust the magnetic field frequency of its surroundings to a normal state.
The unique vibration characteristics of crystal elevate human vibrations to new heights, particularly distinguished by their precise crystal lattice patterns that set them apart from other materials.
We have discovered a method where high-purity silicon is used as the main element, with the addition of other particles or single-crystal lattice structures of different diameters for melting. The melting process alters the structural morphology of silicon-based single-crystal lattices. Especially after high-temperature melting, it deeply penetrates at the atomic level, resulting in magical phenomenon where its frequency changes. Only by arranging our different crystal lattice materials in a pyramid shape can we stimulate them. In a passive state, our material converts, amplifies, and modifies the frequency into terahertz.
This material and formulation, under different temperatures and with the addition of different materials and diameter ratios, achieves atomic-level fitting with the pyramid within the silicon element through high-temperature melting. Energy particles rotate at high speeds inside, accelerating their movement and being released. The process of release is the generation of terahertz waves.
The material used for terahertz is completely different from others. Most others cannot achieve terahertz at 10^12. Most are in the infrared or far-infrared range, not terahertz. Without conversion and stimulation through a third-party medium, terahertz cannot be achieved. Only by arranging different crystal lattice materials in a pyramid shape and, in a passive state, using this material to convert, amplify, and modify the frequency into terahertz can it be achieved. Any claim of "terahertz" without such conversion and stimulation through materials is merely speculative.
Application of Terahertz Technology in Biomedicine
The application of terahertz technology in biomedicine lies in the fact that biomacromolecule interactions are key drivers of significant biological phenomena and disease development, and terahertz photon energy spans the energy level range of biomacromolecule spatial conformations. This frequency band encompasses crucial information, such as spatial conformations that directly represent biomacromolecule functions, which cannot be detected by other electromagnetic bands.
Therefore, it is possible to develop a new theory and technology that utilizes terahertz to detect and intervene in the interaction processes of biomacromolecules, providing advanced technological means for the diagnosis and effective intervention of current major diseases.