Space scientists are dedicated to studying the conditions necessary for human life inside spaceships. In this pursuit, they have recognized that far infrared, with a wavelength range of 5.6-15 microns, plays a crucial role for living organisms. Far infrared is often referred to as the longest wavelength in the infrared spectrum and possesses the ability to penetrate the skin and subcutaneous tissues.
It is worth noting that the wavelength of far infrared light emitted by the human body is approximately 9.6 microns, which overlaps with the range of far infrared light (5.6-15 microns). This overlap enables a phenomenon known as resonance, where cells and molecules within the human body become activated. This activation, in turn, promotes blood circulation, accelerates metabolism, and enhances the body's innate immune response.
The function of far infrared rays extends beyond cellular activation. They also contribute to increasing the oxygen content in the body. By resonating with water molecules in the body, far infrared rays stimulate cellular rejuvenation, leading to improved mental clarity, enhanced disease resistance, and a slowdown in the aging process.
Furthermore, far infrared rays have a positive impact on the body's circulatory system. Through resonance, they convert into heat energy, raising the temperature of deep skin tissues and thereby accelerating blood flow. This, in turn, supports the proper functioning of the body's circulatory system.
As individuals age, their metabolism tends to slow down, compounded by unhealthy lifestyle habits. This can lead to an accumulation of toxins in the body, adversely affecting overall health. However, far infrared rays can help combat this issue by speeding up metabolism, aiding in the disposal of bodily waste, and alleviating the burden on organs.
Lastly, far infrared rays contribute to improving the body's immune system. By regulating cellular and humoral immune functions, they promote overall health and well-being.
In summary, the study of far infrared rays and their effects on the human body is of great importance to space scientists. The ability of far infrared to activate cells, enhance blood circulation, accelerate metabolism, and boost the immune system highlights its potential benefits for human health in both space and terrestrial environments.
