What are Biophotons? – The Light in Our Cells and Higher Intelligence
The light in our cells?
That sounds like something out of a science fiction novel. But it’s true, biophotons are the photons that come from certain chemicals within our body and some plants – they create an energy field that helps to repair damaged tissue and balance hormones.
Biophoton therapy is on its way to becoming a mainstream medical treatment!
Biophotons are a type of photon that is released by living organisms and their surroundings. Some biophoton wavelengths have been measured in the infrared spectrum, which can’t be detected by our eyes. They may also contain information about the health or mood state of an organism to help them communicate with other cells.
These photons carry energy from one cell to another, assisting in communication between tissue types and systems within biological bodies such as blood circulation or immune function. Biophotons emit light at a frequency that is not visible to the human eye and emit enough energy for communication purposes.
In addition, biophotons are created by cells from organic compounds such as amino acids or lipids which can be used in different parts of our body such as muscles and bone marrow.
Biophoton therapy has been found to have positive effects on animals with injuries because it enhances tissue healing rates due to its ability to regenerate damaged tissues faster than usual.
What are Biophotons
Light emission is an expression of the functional state of an organism. The light can be measured by special equipment and is called biophotons, or ultraweak photon emissions of biological systems. These photons are emitted within the optical range of the spectrum and are so weak that they cannot be detected by the human eye.
The difference between cancer cells and healthy cells is the type of biophoton emission. After a decade of research, scientists are exploring many interesting applications for this technology.
Biophoton light is stored in DNA molecules. The dynamic web of light constantly released and absorbed by the DNA may connect cell organelles, cells, tissues, and organs within the body. This suggests that the biophoton field may be the principal regulating instance for all life processes.
Life processes such as morphogenesis, growth, differentiation and regeneration are explained by the structuring and regulating activity of the coherent biophoton field. It has been suggested that the biophoton field of the brain and nervous system may also be basis of memory.
Additionally, biophotons have been found to exhibit quantum coherence, which is the ability for particles to remain in sync with each other over long distances. Quantum coherence is the basis of our modern world, from lasers to transistors. However, it was not until recently that scientists discovered that quantum coherence exists in living cells.
In a recent biophotonic study, researchers found that they play a key role in establishing and maintaining quantum coherence between different parts of the cell. This allows the cell’s communication and energy transfer systems to operate smoothly and efficiently. In other words, they are a key component in cell-to-cell communication.
The holographic properties of the biophoton field may help to explain some phenomena such as consciousness and acupuncture. The coherence properties are closely related to its base in the physical vacuum. This suggests that the biophoton field may be related to the concept of Ch’i energy in Chinese medicine and the Prana of Indian Yoga physiology.
Biophotons as Subtle Energy Carriers
In traditional Chinese medicine, Qi energy is measured and its flow is directed for promoting health. While we don’t yet fully understand how Qi energy flows through the body, we know some of the channels through which it seems to flow.
Subtle energy is not a new idea, but recent research has brought it back into the spotlight. Qi and prana are now being studied for their similarities to electromagnetic particles in subtle energy systems. Scientists believe that subtle energy carriers, such as biophotons and bioelectrons, exist in acupuncture meridians. This means that biophoton and bioelectron readings could be taken from within the body to help with research on subtle energy systems.
We know some of the channels through which Qi energy seems to flow. The most well known is the nervous system, but Qi also flows through the blood vessels, organs, and tissues. Qi energy is measured in acupuncture systems and its flow is directed for promoting health. Biophotons may be one of the ways that this flow is carried out within the body.
This means that bioelectron readings could be taken from within the body to help with research on subtle energy systems.
Making Sense of Medicine: The light of life
What are biophotons? Biophotons are light that has been studied for the last 30 years. They are photons of light created by living cells, and they have been linked to DNA. Biophotons are part of the electromagnetic spectrum, and they are emitted by all cells, except red blood cells.
Biophotons have a low intensity and can only be seen at about 6 miles away. Research into biophoton creation and function is still in early stages, but there are some potential uses for this technology that we know about so far. One of the probable future uses is to use biophotons in a diagnostic tool.
Biophotons are used for communication between cells, which can affect people and objects around us. The speed of light is the fastest biophotons can communicate, which means that they coordinate communication among cells in your body automatically and without effort, working at speeds up to 186,000 miles per second. In other words, biophotons are the light of life.
Biophoton communication is possible, with an unknown language that both senders and receivers can understand. This means that biophotons may be the key to interpersonal communication, in which one person’s biophoton could affect another without their knowledge.
Biophotons are related to unconscious communication between humans. Implications for health care include stress reduction and increased mental clarity.
Biophotons are also the photosynthetic product of living cells. This means that they can be used to detect oxidative stress in the body, which may help with diagnosing an illness or health issue. When oxidative stress increases, biophotons are created more often, and this can be seen in the skin. This has implications for aging analysis.
Biophotons, DNA and the Holographic Body
Your body replaces cells every 27 days. This means that all of the cells in your body are replaced within 7-10 years. The DNA in each cell guides the growth of that cell so it becomes a part of your new heart tissue, eyes, or hair. New cells have the same DNA and can become any type of cell in the body – they are essentially blank slates.
Cells in the body are constantly dying and being replaced by new cells. Scientists have found that all cells in the body are replaced within 7-10 years. The DNA in each of your cells guides the growth of those new cells so that they can become part of, for example, your new heart tissue, eyes or hair. However, scientists have not yet been able to explain how DNA knows when to stop growing and tell a cell to become a specific type of cell.
A hologram is defined as being a three-dimensional image. British biologist Rupert Sheldrake has pointed out that DNA is just a delivery mechanism – like the blueprint for building a house, but not the actual construction itself. He argues that it’s our emotional states and intentions that are powerful enough to alter DNA expressions. When we’re in a state of love, for example, the coherence is enhanced and the biofields become stronger. This resonance between coherent fields around DNA and hearts then leads to healthier genetic expression.
Some scientists believe that biophotons – tiny packets of light emitted by all living things – may be involved in communication between cells. Interfering with these biophotonic patterns could create templates of the body which could be accessed through DNA. In some cases, biophotons have been photographed outside the body.
The existence of a human hologram has yet to be proven, but many believe it’s possible. Some scientists even think that the lack of coherence within the biofield may cause an illness or disease.
What is the science behind biophotons?
The science behind biophotons is still being explored, but it holds a great deal of promise for the future. Biophysicists around the world are investigating the many possible applications of this new discovery.
Biophotons are weak electromagnetic waves that can be measured with special equipment. They are emitted by healthy and cancerous cells, which can be used as an indicator for differences in these types of cells. The discovery was made over a decade ago, and since then, many applications have been explored by biophysicists all over the world.
Biophotons serve as a main communication network for all life processes in an organism’s body. They are stored in DNA molecules of cells, tissues, and organs within the body. This theory states that biophotons may be responsible for memory, consciousness and other phenomena of the nervous system. Additionally, they may be an interface to non-physical realms of mind, psyche and consciousness.
Biophoton theory is still relatively new to science, so there is much more research to be done on this topic. However, early findings suggest that biophotons play a major role in regulating functions within our bodies.
How can biophotons be used to improve our health?
While we have only recently begun to study biophotons, they are important and deserve our full attention. In fact, you are absorbing and emitting millions of biophotons every day. Yes, millions!
So what does this mean for our physical and mental health? Some ground-breaking results show that biophotons can provide understanding of non-invasive early diagnosis in cancer research.
Oxidative stress has been implicated as a precursor to the development of metabolic syndrome, which is a cluster of conditions that increase the risk for heart disease, stroke, and type 2 diabetes. The measurement of oxidative stress could be useful for identifying individuals at risk for metabolic syndrome. However, current methods for measuring oxidative stress are invasive and expensive.
Biophoton emission and electron availability are alternatives to photon measurements that could be used to measure oxidative processes in the body. This could be an easy and non-invasive method to measure oxidative stress. In addition, this method would be less expensive than current methods.
A further observation noted that when a person is subjected to certain conditions, such as hypoxia, their brain will produce low-level photon emission. This phenomenon was first discovered in the late 1990s by Dr. K.S. Pribram and his team of researchers at Stanford University School of Medicine. Free radicals are also known to be produced during hypoxic states, and it is thought that they may be responsible for the photon emission.
A number of studies have been conducted in an effort to better understand this relationship between free radicals and low-level photon emission. One study, published in 2000 by Shimizu et al., found that ultraweak chemiluminescence values increased during pre-hypoxia and decreased during hypoxia in rat brains. In a later study, Suzuki et al., found that vitamin E reduced free radical production in vivo and prevented damage to the brain tissue after hypoxia had occurred.
Where does the biophotons come from: sunlight or nutrition? Scientists refer to them as “the light within us”. They are absorbed through our eyes and skin but also from the foods we eat. However, foods don’t contain enough of this form of light to sustain our health. That’s why it’s important to get exposure to sunlight every day. Less sun means less biophoton’s which can lead to health problems.
Our vitality is directly related to the quality and quantity of biophotons that are present in our body. A healthy body emits far fewer biophotons, whereas someone who is sick or suffering from mental issues emits far more.
So how can we use this information to improve our health? They are being absorbed and emitted from all living organisms, including humans. The quantity is determined by the quality of what you eat and drink. This means that if you want to increase them in your body, you should focus on eating and drinking healthy foods and beverages.
In addition, exposure to sunlight is essential for good health. Sunlight is a major source of this crucial light, so make sure to get outside for at least 15 minutes every day!
What are the benefits of biophotons?
The benefits of biophotons are vast and varied. They have the potential to be used in many different areas, such as cancer research, early medical diagnosis, food testing, etc. Here are some specific examples:
- Biophotons may be able to aid in the early diagnosis of cancer. This is because they can be measured to assess the functional state of an organism. In other words, by measuring the light emissions from an individual, we can get a sense for how healthy they are.
- Biophoton technology has already been used in food testing for over two decades. It is a fast and accurate way to test for contaminants and other unwanted substances in food products.
- Somatic therapies (treatments that focus on the body) like acupuncture and homeopathy may become more effective with the help of biophotons. These treatments work with energy fields within the body, and it is thought that biophotons may play a role in this energy field.
- The biophoton theory suggests that a web of light constantly released and absorbed by DNA connects organelles, cells, tissues, and organs within the body. This could mean that we will eventually learn more about how diseases spread throughout the body by studying the biophoton field.
- Biophotons are related to morphogenesis, growth and differentiation. This means that they may be able to help us understand more about how organisms develop and change over time.
- The discovery of biophotons lends scientific support to some unconventional methods of healing such as somatic therapies, homeopathy, and acupuncture. All of these treatments work with energy fields within the body, and it is thought that biophotons may play a role in this energy field.
What are their potential applications?
The potential applications are vast and varied. Some of the most important uses for biophotons include assessing organisms’ functional state, detecting cancer cells and other types of cells, and diagnosing diseases.
In addition to these medical applications, they can also be used in other fields like environmental studies or agriculture. For example, they could be used to detect whether plants are healthy or not, or to help farmers adapt to changing weather conditions.
There is still much research that needs to be done in order to understand all the ways that they can be used. However, the potential implications of this new discovery are exciting and far-reaching. With further study we may find even more ways that can benefit the collective!
What is the future of biophotons?
The future of biophotons is the study of the connection between light and life. This area of research is still in its infancy, but there are many exciting possibilities for exploration.’
One possibility is that biophotons may be involved in memory and other phenomena of consciousness. Another is that they may play a role in regulating functions by interacting with the node lines in our biophoton field.
There are many potential applications for this new knowledge, including food and water quality testing, diagnostics, and unconventional methods of healing. Scientists expect to make rapid developments in this area over the next decade.
What are the implications for our society?
There is still much to learn about biophotons and their implications on our society. However, some researchers have already begun to explore the potential benefits of this newly-discovered phenomenon. For example, Imaizumi et al. (1984) and Suzuki et al. (1985) found that increased biophotons can emerge after a hypoxia state and this increased biophoton production persists up to 30 minutes post-hypoxia, when values return to low levels 10 ± 13 counts/10 s-g which are similar with pre-hypoxic values. This suggests that there may be therapeutic applications for increasing biophoton levels in the future.
Bókkon & Salari (2005) also found that different light spectrums at which the ultraweak chemiluminescence peaks vary among individuals; furthermore, these differences seem to be correlated with different personality types. This could lead to new methods of diagnosing and treating various illnesses or psychological conditions in the future.
While much more research is needed before any definitive conclusions can be drawn, it is clear that biophotons hold great promise for improving our understanding of human biology and behaviour.
In this article, we explored the concept of biophotons and their role in our cells. We also discussed the benefits and uses of these photons for healing and rejuvenation. Finally, we gave you a guide on how to find sources and use them to improve your health.
Because they have the ability to heal the body, they could be considered the elixir of life. If you’re interested in harnessing their power, we recommend using Ormus as a supplement to harmonise their function in your body.
By understanding the potential benefits of biophotons, you can start taking steps towards a healthier future!