Light and water are two of the most important resources for life on Earth. But did you know that the light that hits water can have a profound effect on its chemical and biological properties?

Light is made up of electromagnetic waves of varying frequencies and energies that travel through space at a speed of 299,792,458 meters per second. Some of these frequencies are visible to the human eye, while others are invisible, such as UV radiation. When light hits water, it can ionize the water and change its molecular structure. Certain frequencies of light, particularly UV radiation, have been found to be able to kill bacteria in water. UV light can also inhibit the formation of algae and other microorganisms that pollute water.

Hexagonal Structuring through Frequencies - the Scientific Side

There are theories that certain frequencies of light can "structure" the water into hexagonal water by creating an ordered molecular structure. This is called "water clustering" and it is claimed that structured, hexagonal water has higher biological activity and improved absorption of nutrients.

However, there are also scientists who question these theories and claim that there is no scientific evidence for the effect of light frequencies on water structure. Overall, the subject of the effect of light frequencies on our tap water remains controversial. There is evidence that certain frequencies can have an effect on the chemical and biological properties of the water.

Of particular note here are the scientific studies of the parascientist Masaru Emoto. Emoto studied the structuring of water in depth and postulated that the quality of water is influenced by its structure. He saw that water is capable of storing information and that its structure can be changed by external influences such as music, words or even thoughts.


Masaru Emoto - a Japanese water researcher deciphers the "message of water"

Emoto conducted numerous experiments in which he exposed water to different conditions and then examined its crystallization under the microscope (see: Short video on Emoto's "Message of Water"). He found that water that was treated with positive information such as love, gratitude or joy had a beautiful hexagonal crystal structure. In contrast, water that was exposed to negative information such as hate, violence or abuse formed irregular and chaotic crystal structures.

It is obvious what positive molecular changes light frequencies, especially sunlight frequencies, can cause in water. Sunlight has a frequency of 528 Hz, which is also known as the "love frequency". It is believed that this frequency activates water on a molecular level and helps it to restore its hexagonal structure.

What good is this to us?

For us humans, there is a practical benefit to hexagonalizing water. Structured water is thought to have higher biological activity and be better able to absorb nutrients. It also appears to increase binding capacity, meaning there is less calcification. This can help household appliances last longer and pipes to be less prone to clogging.

The effects of hexagonalization of water mentioned (as well as, for example, homeopathy, bioresonance, areas of acupuncture) cannot currently be proven based on generally accepted scientific methods and opinions. There is only limited scientific evidence to date for the effect of sunlight on the structuring of water. The findings are based on alternative concepts and reports from satisfied users.

Whether or not the theory of water structuring by sunlight frequency is scientifically sound, we should remain committed to protecting our waterways and ensuring a safe water supply. Clean and safe water is essential for health and there are numerous actions each of us can take to reduce our water consumption and protect our waterways.

If you would like to learn more about Masaru Emoto and his research, here is a link to his website: https://masaru-emoto.net/de/


Infotonik

Infotonics is an interdisciplinary research field that deals with the interaction of light and information at the nanoscale level. Infotonics combines concepts from optics, electronics and computer science to develop novel technologies based on photonic devices.

The field of infotonics investigates how information can be transmitted, processed and stored via light waves. Photonic components such as optical fibers, semiconductor lasers and optical circuits are used to generate and manipulate optical signals.

Infotonics has the potential to increase the performance and speed of information and communication technologies. Examples of applications of infotonics include optical data transmission, optical imaging in medicine and biology, optical sensing and optical data storage.

Research in the field of infotonics has developed rapidly in recent years and is expected to become even more important in the future. Infotonics could be a key technology for the future of information and communication technologies.

How do silicon crystals serve as data carriers of frequencies for water treatment?

The use of silicon crystals as data carriers of light frequencies for the treatment of water refers to an application of infotonics in which light in silicon crystals is used to treat water.

The idea behind it is that silicon crystals as photonic devices are able to absorb and emit light in certain frequency ranges. When the light is passed through the silicon crystal, it can be modulated in a certain way in order to be introduced into water in a targeted manner.

The specific type of modulation depends on which pollutants are to be removed from the water. The light frequencies are selected so that they break down certain molecules in the water or convert them into other chemical compounds. For example, organic compounds, heavy metals or other pollutants can be removed from the water.

Why silicon?

The use of silicon crystals as data carriers of light frequencies has the advantage that they are inexpensive and easy to manufacture and that the light frequencies can be precisely controlled.It is also possible to integrate the silicon crystals into a matrix to create a larger surface area for the interaction of light and water. Overall, the use of silicon crystals as a carrier of light frequencies for water treatment has the potential to be an environmentally friendly and effective method of treating contaminated water. However, it should be noted that this method is currently still under development and further research and testing is required to prove its effectiveness and practicality.