Invest in our Research
EXHLAB INC.
At EXHLAB, we prioritize agility and design thinking as key elements across all our operations. We acknowledge that these approaches enable rapid and efficient development of innovative solutions, and we apply them in all our research and experimental development activities. Our highly skilled team of professionals employs these techniques to conduct groundbreaking research and develop sustainable and efficient energy solutions.
Leadership at EXHLAB
Arayik Danghyan
CEO and Lead Scientist
A visionary in the truest sense, Arayik Danghyan founded EXHLAB with a singular goal: to revolutionize the energy sector. His leadership has been instrumental in our trailblazing research endeavors.
Edgar Mkrtchyan
Team Lead and Research Scientist
As Team Lead and a contributing Research Scientist, Edgar Mkrtchyan uses his Agile and Design Thinking expertise to actively support our team's innovative research in clean energy.
Babken Danghyan
Research Scientist (Computational)
Specializing in computational research, Babken Danghyan adeptly addresses the intricate challenges associated with LENR, pushing the boundaries of what's possible.
Daniela Rival
Scientific Translator
Daniela Rival plays a crucial role in bridging our research with the global community, ensuring that our findings are lucidly communicated to collaborators, stakeholders, and the wider public.
Our Vision
Our vision is clear and unwavering: to revolutionize the energy sector. We aim to harness the immense power of LENR, presenting the world with a sustainable and environmentally-friendly alternative to conventional energy sources.
History
Founded in 2022 by visionary physicist Arayik Danghyan, EXHLAB Inc has consistently pushed the boundaries of nuclear physics. Our groundbreaking M2 equation, derived from the Special Theory of Relativity, has opened new avenues in understanding electron behavior, especially in relation to LENR.
Technology
Our research focuses on the deep states of the hydrogen atom, which could provide a blueprint for energy-producing devices. By introducing molecular hydrogen into a reactor with a catalyst, we aim to stimulate hydrogen atoms into excited states, leading to energy emission in the form of gamma quanta. This approach holds the potential to transform energy production.
Why EXHLAB is the Investment of Tomorrow
Distinguishing Factor
Our M2 equation offers a unique perspective in the field of LENR, providing a novel approach to understanding and explaining the phenomena associated with low energy nuclear reactions.
Innovative Research
Bridging quantum mechanics with energy solutions.
Future-Driven Approach
Bridging quantum mechanics with energy solutions.
Eco-Commitment
Pioneering research for an eco-friendly energy transformation.
Regulatory Insight
Pioneering research for an eco-friendly energy transformation.
Positioned for Breakthroughs
In a market eager for innovative energy solutions.
Research Integrity
Prioritizing validation and accuracy in all our endeavors.
Risk Awareness
Proactively addressing and navigating scientific challenges.
Roadmap
Over the next six months, our primary focus will be on the experimental validation of our hypotheses and theories. Here is our plan for this exciting journey:
2012 - Equation Development
Over the next six months, our primary focus will be on the experimental validation of our hypotheses and theories. Here is our plan for this exciting journey:
2015 - Team Expansion
By this time, the core concepts of the M2 equation were well-established, and the focus shifted to expanding the team and bringing in diverse expertise.
2018 - Preliminary Validation
Initial attempts to validate the M2 equation were made, using both computational models and preliminary experimental setups.
2023 - Collaborative Outreach
Efforts were intensified to reach out to the broader scientific community, seeking collaboration and insights to further refine and validate the M2 equation.
Current Stage - Member Recruitment
The current stage, where the primary focus is on searching for and recruiting new members to join the team, especially those who can contribute to the validation of the theory.
We are looking for Professionals
Experimental Physicists
To design, conduct, and interpret experiments.
Quantum Physicists
To provide key insights into the quantum behavior of electrons.
Nuclear Physicists or Engineers
To design and perform LENR-related experiments.
Spectroscopists
To detect and interpret unique spectroscopic signatures.
Publications
Exotic States of the Hydrogen Atom
We study atomic hydrogen and deuterium, central to LENR experiments, aiming to decipher electron behavior in a hydrogen atom and explain LENR's unexpected energy release.
Hydrogen Atom and LENR
The M2 equation, we unveil potential energy levels below the known ground state, which could redefine energy understanding and open new paths for clean energy production.
Electron-electron bound state
The electron-electron bound state is a theoretical concept that suggests the possibility of two electrons forming a stable bound state when they approach each other closely enough.
The wave function of the electron
Our paper reveals the wave nature of an electron through the solution of the relativistic equation M2, validating Louis de Broglie's hypothesis about the existence of matter waves.
