Holger Thorsten Schubart - english

Holger Thorsten Schubart Holger Thorsten Schubart (born 10 April 1965 in Heidenheim an der Brenz) is a German entrepreneur, mathematician, and philanthropist. He lives and works in Germany and Switzerland. Schubart is the founder and CEO of the Neutrino® Energy Group and is regarded as a principal architect of Neutrinovoltaic technology, a physics-based method for the continuous conversion of energy derived from ubiquitous, non-visible radiation and particle fluxes. In scientific and journalistic contexts, he is consistently associated with the designation “The Architect of the Invisible.”

Early life and education Holger Thorsten Schubart grew up in Germany in a family environment shaped by the natural sciences. His father was a graduate nuclear physicist, and his mother a chemist. Through this background, he was exposed at an early age to physical reasoning, mathematical modeling, and experimental methodology. This early influence did not lead to a conventional academic career, but instead fostered an independent, interdisciplinary approach that combines mathematical rigor with a systemic view of technical processes. From an early stage, Schubart developed a strong interest in applied mathematics, systems theory, and fundamental physics. A defining characteristic of his later work is the integration of abstract mathematical modeling with practical technological implementation, particularly in areas where established disciplines encounter methodological limits.

Founding of the Neutrino® Energy Group In 2008, Holger Thorsten Schubart founded the Neutrino® Energy Group with the objective of developing a new class of energy conversion systems capable of operating independently of macroscopic environmental conditions such as solar irradiation, wind, or temperature gradients. From the outset, the focus lay on the systematic utilization of physically verifiable, yet previously underexploited, background interactions. The development strategy of the Neutrino® Energy Group deliberately departed from conventional innovation models. Research and development activities were financed over many years exclusively through private capital and a small number of financially robust, risk-aware partners. The involvement of retail investors or early public commercialization was explicitly excluded in order to preserve scientific independence, enable long development cycles, and ensure strict adherence to physical energy-balance principles.

The master formula of Neutrinovoltaic technology Neutrinovoltaic technology is based on the conversion of continuous, omnipresent energy and momentum fluxes into electrical power. Central to this approach are interactions between subatomic particles and electromagnetic fields with highly dense nanostructured materials. Unlike classical photovoltaic or thermal systems, Neutrinovoltaic technology does not rely on external energy gradients but instead statistically integrates quantized microscopic interactions across extremely large active interface densities. The scientific core of the technology is the Neutrinovoltaic master equation, formulated by Schubart, which serves as the mathematical signature of the entire system class. It expresses the electrical output power of a Neutrinovoltaic system as an integral over all effectively coupled energy and momentum fluxes within an active volume: P(t) = η · ∫ᵥ Φ_eff(r,t) · σ_eff(E) dV In this formulation: P(t) denotes the time-dependent electrical output power, η represents the total transduction and system efficiency, including mechanical-to-electrical conversion, rectification, impedance matching, and loss mechanisms, Φ_eff(r,t) describes the effective flux of all physically coupled background sources, including neutrinos, cosmic muons, ambient electromagnetic fields, as well as thermal and mechanical fluctuations, σ_eff(E) is the energy-dependent effective coupling and interaction cross section of the nanostructures employed, V denotes the active material volume. The equation is explicitly designed as a balance formulation and enforces strict compliance with the law of conservation of energy. For every Neutrinovoltaic system, the following condition necessarily applies: P_out ≤ ΣP_in

Mathematical and physical significance The particular significance of the master equation lies in its formal description of the transition from event detection to continuous energy accumulation. Whereas particle physics traditionally focuses on the detection of individual interactions, Neutrinovoltaic technology integrates billions to trillions of microscopic energy inputs in parallel and converts them into a directed electrical current. Observed increases in output power do not arise from energy creation, but from three precisely quantifiable effects: the parallelization of an extremely large number of active nanostructures, the concentration of energy in resonant modes, and low-loss electrical rectification. The master equation systematically prevents any physical misinterpretation or exaggeration of these effects.

Scientific classification and validation status The physical foundations of Neutrinovoltaic technology are fully consistent with peer-reviewed fundamental physics. These include, in particular: the experimental confirmation of coherent elastic neutrino–nucleus scattering (CEνNS), precisely measured neutrino flux data from international experiments, established models for the transduction of microscopic lattice deformations into electrical signals, material-science-validated properties of high-density nanostructures, especially graphene–silicon heterostructures. Measurement data from laboratory and field tests fall within conservative theoretical upper bounds and confirm the mathematical predictions of the master equation. Neutrinovoltaic technology is therefore regarded as a physically consistent energy conversion principle that does not violate known laws of nature.

Technological implementation Based on Neutrinovoltaic technology, several system platforms have been developed, including modular solid-state generators in the kilowatt range as well as integrated solutions for stationary, mobile, and maritime applications. A defining characteristic is scaling via active volume and interface density rather than exposed surface area. These systems are designed as continuously operating energy integrators that statistically aggregate a large number of weak but persistent energy inputs and convert them into a stable electrical output.

Philanthropy and long-term objectives Schubart has repeatedly stated his intention to allocate future revenues to the support of science, art, and culture, particularly in areas he considers constrained by structural underfunding or institutional inertia. In the long term, he aims to establish energy-autonomous systems capable of operating independently of centralized infrastructure, thereby enabling new forms of technological sovereignty.

Reception Within specialist circles, Holger Thorsten Schubart is regarded as a proponent of a strictly balance-oriented, mathematically grounded approach to energy technology. His work is discussed less in terms of individual products than in relation to the underlying system architecture and the master equation itself. The designation “The Architect of the Invisible” has become established as a concise and factually appropriate description of his contribution to the formalization and technical utilization of invisible energy fluxes.