A wealth of theoretical and experimental data has now been accumulated, allowing us to affirmatively confirm the possibility of generating electric current from ambient fields of invisible radiation.

Which invisible spectra can be used?

Invisible radiation includes ranges of the electromagnetic spectrum not visible to the human eye:

• Streams of elementary particles (e.g., neutrinos);

• Infrared radiation (λ>700 nm);

• Ultraviolet (10 nm<λ<400 nm);

• Microwave;

• Terahertz;

• X-ray and gamma radiation.

Neutrinovoltaic

Neutrinovoltaic systems operate differently than traditional renewable energy sources, which rely on wind, sunlight, or temperature gradients. These systems operate based on the additive interaction of multiple fluxes, including neutrino scattering by electrons, unusual interactions with quarks and electrons, coherent elastic neutrino scattering by nuclei (CEνNS), cosmic muons, ambient radiofrequency and microwave fields, thermal fluctuations, and mechanical microvibrations. Each of these microscopic interactions contributes to the overall energy output. Their combined effect allows the system to operate continuously. Neither the absence of sunlight nor windless weather can stop this process, ensuring a constant energy flow.

Neutrinovoltaic technology from the Neutrino Energy group, led by mathematician Holger Thorsten Schubart, uses multilayer nanostructures of graphene and doped silicon, converting and amplifying micropulses by resonating the atomic vibrations of graphene.

Holger Thorsten Schubart, President of the Neutrino Energy Group

Operating Principle

The technology is based on unique nanomaterials, including graphene, doped silicon, and other components. These materials:

• When exposed to cosmic particles (neutrinos and antineutrinos) and invisible electromagnetic waves (infrared, microwave, and terahertz ranges), they begin to vibrate, forming so-called "graphene waves."

• The thermal motion of graphene atoms also causes micro-oscillations.

• The resonant oscillations result in a directed flow of electrons, leading to the generation of an electric current.

The key is the disruption of graphene's internal symmetry by alloying elements and the specific geometry of the coating. This forces the electrons to move in a single direction, creating a stable electric current.

The scientific foundation of Neutrinovoltaic technology is based on three key global achievements:

• 2015 — Nobel Prize in Physics: detection of neutrino oscillations → neutrinos have mass.

• 2017 — CEvNS: experimental confirmation of coherent elastic scattering of neutrinos by nuclei → real momentum transfer.

• 2025 — JUNO: precise data on neutrino fluxes, spectra, and interactions.

These published data allowed Holger Thorsten Schubart, President and Chief Scientific Officer of the Neutrino Energy Group, to derive a fundamental formula for calculating the generated power. This formula mathematically describes energy conversion in nanomaterials and combines key parameters:

• Ф_{eff} - effective flux of invisible radiation;

• σ_{eff} - effective interaction cross section;

• η - energy absorption efficiency;

• Geometry and density of graphene and doped silicon layers;

• Resonant amplification of microvibrations;

• Electron mobility in P-N junctions.

This is the key bridge connecting the action of microscopic particles and the release of macroscopic energy.

Right: L.K. Rumyantsev, Deputy Chairman of the Scientific Council of the Neutrino Energy Group

For the equation to be applied in practice, a material must exhibit not only conductivity but also resonant properties that allow it to interact with extremely weak energy pulses and convert them into a directed electron flow. Graphene, with its atomic precision, is capable of this task. When combined with n-doped silicon or new materials such as MXenes and molybdenum disulfide (MoS₂), it creates multilayer composites that resonate at the quantum level, amplifying the smallest pulses generated by invisible particles and fields.

This formula describes in detail the system's operation in its basic 24/7 mode, regardless of weather conditions. It ensures power fluctuations of less than 5% and is completely independent of sunlight, wind, and location. The system also demonstrates high stability under all conditions. The low energy density of invisible radiation requires large collection areas for practical use. Therefore, the compact, fuel-free Neutrino Power Cube generator, based on Neutrinovoltaic technology, produces 5–6 kW of power and has approximately 1,500 m^2 of active graphene and silicon nanostructures.

Key features of the Neutrino Power Cube:

• 5–6 kW of power;

• 24/7 operation, approximately 8,700 hours per year;

• No fuel, emissions, or noise;

• Operates at –40 to +60°C;

• Maximum efficiency at 10–35°C;

• Completely decentralized operation.

Neutrinovoltaic is a multi-source system

Neutrinovoltaic does not rely on a single source, but rather describes a superposition of various interactions of neutrinos, muons, secondary cosmic particles, electromagnetic fields, and thermal and mechanical vibrations. This diversity explains the ability to generate electric current in a basic 24/7/365 mode.

Neutrinovoltaic does not violate the laws of nature, but rather utilizes them. Its advantage lies in its independence from weather, time of day, and geopolitical factors. In a future where freedom and sustainability are essential, this solution offers exactly what is needed: energy from the perpetual motion of the universe. It is a clean and reliable foundation for technological and social independence.

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