In interdisciplinary teams, we develop new technologies, processes, and products that transform fundamental plasma knowledge into practical solutions. Research and development are the core activities of KFM Austria GmbH.
The following fields of research form the foundation of our work:
Field of Research: Utilizing Cosmic Rays as a Transmission Medium
Current wireless transmission systems rely on radio, optical, or acoustic principles, using electromagnetic waves as the transmission medium – for example in satellite communications. In this field of research, we focus on harnessing Cosmic Rays as a transmission medium. Numerous experiments have been conducted and prototypes developed, leading to the following insights:
- Cosmic Rays can be used as a transmission medium.
- With specialized apparatus, it is even possible to transmit emotions.
- Through developed measurement techniques and processes, transmission can be captured and optimized.
Field of Research: Utilizing Cosmic Rays for Matter Production
In 2018, a team of three plasma scientists at the KFM Austria GmbH research laboratory succeeded for the first time in generating matter from moving fields. All processes were filmed, photographed, and meticulously documented. The experiment has since been repeated multiple times and was publicly demonstrated in 2025. From the conducted experiments and developed prototypes, the following insights have been gained:
- The generation of matter from GANS plasma fields is possible and reproducible.
- Parameters can be identified to increase output and thus improve the field-to-matter conversion rate.
- Parameters can be identified to enhance output and further optimize the degree of field-to-matter conversion.
- Parameters can be determined to alter the type of matter produced, enabling the creation of various mixtures of different materials.
Field of Research: Utilizing Cosmic Rays in Gas Production
In 2022, the first prototypes for gas production from plasma fields were developed in the research laboratories of KFM Austria. In the initial phase, gas sensors confirmed that the resulting mixtures consisted of familiar gases such as hydrogen and methane.
In the second phase, the research team focused on increasing the efficiency of field-to-matter conversion in order to achieve combustibility.
Through numerous experiments and the development of multiple prototypes, the following insights have been gained:
- It is possible and reproducible to generate combustible gases from plasma fields.
- Gas production can take place anywhere and requires only a very short warm-up phase.
- Parameters have been identified to modify the type of gas produced; even non-combustible gases could be generated.
- Parameters have been identified to increase the volume of gas produced.
Field of Research: Application of Cosmic Rays in the Wellness Sector
Since the founding of KFM Austria GmbH in 2017, research and prototype development have been ongoing in the wellness sector. A variety of horizontal and vertical devices were initially developed and tested for stationary on-site use.
In 2022, the first remote solution was developed, utilizing the plasma field – the Cosmic Rays – as a transmission medium to convey multidimensional information, thereby promoting balance across multiple levels of human existence.
Particularly, the development of energetic essences has shown that the application of GANS plasma technology to the human body can be done very simply and completely contactless.
Through numerous experiments and prototypes, the following insights have been gained:
- It is possible and reproducible for plasma fields to bring the body’s energy fields into balance.
- To achieve this balance, both local, on-site solutions and remote solutions are now available.
- Identified disruptive fields can be reduced, or desired fields enhanced, through the targeted arrangement of plasma fields in the form of devices.
- Cosmic Rays not only balance the body’s energy fields but also provide them with energy – a form of “nutrition” that can be perceived by humans as “food.”
Field of Research: Development of Sensors and Measurement Techniques for Cosmic Rays
The development of Cosmic Ray sensors, associated measuring devices, and measurement techniques has made it possible to visualize plasma fields and optimize them in a targeted manner. Through numerous experiments and the construction of many prototypes, the following insights have been gained:
- Plasma fields can be measured and visualized within a defined range. It is therefore assumed that there are plasma fields that we are currently unable to detect.
- Measurements are based on field-to-matter converters, which are continuously being further developed.
- Measurements can be conducted on different levels. For humans, for example, it is possible to measure the physical body fields (Physicality, P), emotional fields (Soul Physicality, SP), and the central energy fields – often referred to as the Soul (S). The term “Soul” is not to be understood in a religious sense but is defined purely technically as the central, measurable energy within the human body.
Field of Research: Development of Control Electronics for Cosmic Rays
New technologies require new measurement, control, and regulation techniques. Since the beginning, we have therefore developed our own electronic circuits for devices across all fields of research. Circuit design, calculation, PCB layout, assembly, and testing are all carried out in-house and are part of a continuous improvement process.
GANS plasma technology poses significant challenges to conventional electronics. From our current findings, the following insights have emerged:
- Special protection for electronic circuits is required and has been specifically developed for plasma environments.
- Not all commercially available electronic and digital systems can withstand plasma fields, even with existing protective measures.
- Control electronics for plasma fields are subject to continuous development and optimization.
- As the technology advances, electronic circuits are increasingly being replaced by purely plasma-based components or fields.