EXECUTIVE LEADERSHIP TEAM

She has built launch pads for technology and innovative brands for 25+ years with a 10X growth scalability, legitimizing new companies and communities to acquire big-name investors, sponsors and financial partners. 

Her work portfolio includes Fortune 500 global companies CNN and Hyperloop as well as science and technology apps and marketplaces in the fields of bio-tech, agriculture, transportation innovation, media, consumer brands, and health and wellness. 

Her passion to bring unified physics into humanity’s major industries for evolution on and off-planet drive her purpose and mission. 

• “Quantum Gravity and the Holographic Mass,” published in the peer-reviewed journal Physical Review & Research International in 2013
  • Utilized a generalized holographic principle and predicted a precise value of the charge radius of the proton, which disagreed with the Standard Model by 4%
  • Prediction was later confirmed by a team of scientists at the Paul Scherrer Institute utilizing muons in a proton accelerator
  • The measurement has since been validated by the adjusted 2018 CODATA value of the proton RMS charge radius 
• Haramein’s findings have implications and applications to revolutionary technologies that will help overcome some of the largest challenges facing the world today

As a turnkey innovator, he is a multi-time winner achieving innovation prizes and grants for technical strategy and product development. He is an expert in public and private funding for research and innovation; with a strong background developing IP in Electronics, Software and hardware architecture.

Mr. Ginestet led design and development as Technical Director for Freel Tech’s Vacuum Capacitor Technology, Social Network Project with Nouvonivo and Supercomputing Project for Synergy-CAD to name a few in his extensive career. He has contributed to 6 patents, developed 9 products, acquired $6M in grant funding, and raised $4M capital. 

Specializations include super computing, data transmissions, 3D reconstruction, physics of ultra high vacuum, high voltage, LENR research, power supply and energy conversion.

Field applications include IT solutions for energy, AI, deep learning, big data, high-performance computing, telecommunications, finance, automotive, scientific measurement, and semiconductor industries.

For the past several years, he has been working as a scientific advisor for startups and medium size companies dealing with many fields of applications such as near field communication, LPWAN ioT technology, nuclearized environment, laser systems, continuously variable transmission and also chemical compounds formulation.

Apart from this professional activity of managing R&D and securing its funding, he practices martial arts (black belt in judo and experienced in aikido), informatics as a hobby, as well as his research into new forms of alternative energies.

During his tenure at X, Dr. Guermonprez conducted research dedicated to the development of a multifunctional microfluidic platform for the study of bacteria growth, antibiotics and bacterial ecosystem, earning his Ph.D. under the supervision of Sebastien Michelin and Charles Baroud.

While at Lightinderm, an innovative skincare company at the Cochin Hospital in Paris, Dr. Guermonprez was responsible for deepening the understanding of biological mechanisms stimulated by light, forming partnerships with academic research laboratories, presenting his work to influencing groups, filing patents and publishing scientific articles, validating the effectiveness and safety of the startup’s clinical programs.

Dr. Cyprien’s advanced studies led to the development of on-chip antibiograms and an AI-based software to automatize the parallel analysis in each microdroplet stored in a large matrix; additionally determining an in-vitro growth condition for segmented filamentous bacterium (SFB), a commensal bacterium involved in the post-natal maturation of the B- and T-cell compartments. This study identified species that live in symbiosis in mice guts contributing to the lab of Philippe Sansonetti at Institut Pasteur of Paris.

Dr. Brown is a molecular biologist who has worked with Nassim Haramein for 10 years applying the solutions of Unified Physics to better understand the biophysics of the living organism. As a biophysicist and research scientist at Torus Tech and Resonance Science Foundation, he performs theoretical development and experimental research to better understand the physics of complex, self-organizing systems, particularly the biological system. He has worked in laboratories across the country performing research in molecular genetics, morphogenesis, and neurodynamics. 

Within the theoretical purview, Dr. Brown has revealed important new insights into the processes of biogenesis, evolution, biological intelligence, and consciousness. In experimental and applied domains, his contributions show potential applications in advanced health and wellness technologies, manufacturing, and agriculture. William has worked in numerous laboratories across the country and has an extensive background in genetic and neurobiological research and theory.

William is passionate about learning and considers that as a fundamental aspect of his work and life. His primary objective is to help bring forth new ideas and technologies to assist humanity, protect the biosphere, and advance civilization.

She has worked in several research universities and projects throughout France, USA, and Mexico. Her research covers generalized holofractographic theory, quantum gravity, unification theory, entanglement, information and quantum information theory and connection to black holes and proto-consciousness, neural networks, machine learning, time dependent electric fields interaction with molecules, metals, and metal oxides nanoparticles.

She conducts analytical and computational modeling of molecular wires and nano-systems coupled to time-dependent electric fields, Optical response, Raman, and Surface enhanced Raman spectroscopy–SERS in molecule-metal oxide hybrids, Nonlinear and quantum optics, Algebraic methods for time dependent Hamiltonians in the one-electron description as well as periodic and non-periodic computational methods (VASP, ADF, GAUSSIAN), TDDFT, Linear response, and Casida equation.

She is an advocate for Women in Science and supports STEM programs.