Properties of Matter At the Lambda Point

Absolute heat is estimated to be 41,678, 571 × 10 ^ 32 Kelvin, which is a very high number. At that temperature, traditional physics started to collapse and ceased to produce related effects. However, to better understand the theoretical maximum temperature that can be achieved, absolute zero must also be discussed in the opposite case. They are all very important and have countless possibilities. It can revolutionize the many materials we use today. The concept of absolute zero was very old and was proposed by physicist Robert Boyle, an Irish chemist in "New Experiments and Observations" announced in 1665.

The details of this process vary depending on the amount and type of substance in the universe, but cold dark matter, warm dark matter, hot dark matter, baryon substance are divided into 4 types. However, the lambda cold dark matter model (Lambda - CDM), in which the dark matter particles move more slowly than the light velocity, is considered to be the standard model of the big bang cosmology because it is most suitable for existing data. In this model, it is estimated that cold dark matter accounts for about 23% of the material / energy of the universe and baryon material accounts for about 4.6%. Lambda refers to the theory originally proposed by Albert Einstein trying to prove that the balance of the cosmological constant, the mass energy of the universe is static. In this case, it is related to dark energy. It helps to accelerate the expansion of the universe and keeps its large-scale structure roughly uniform.

Einstein's theory forms the foundation of what is now called the standard model of cosmology - strictly speaking the large amount of matter in the universe that lambda represents "dark energy" and that "cold dark matter" is believed to exist As a lambda cold dark matter model. But I can not see traditional instruments. Most cosmologists and astronomers think that they are growing standard models as successful examples, but there are always problems and abnormalities that can not always be explained in the standard model. In fact, dark energy and dark matter are proposed as a complement to cosmology. This is because related data do not satisfy GR's prediction.

Dark matter is an imaginary substance that can not be seen with a telescope, but it explains most of the substance in the universe. The presence and nature of dark matter is inferred from the influence of gravity on the large scale structure of visible matter, radiation, and the universe. Since dark matter is not detected directly, it is one of the biggest mysteries of modern astrophysics. - Wikipedia A few years ago when I observed Aquila's Bernards 142 and 143 through my 10 "Dobson telescope I began thinking about the idea of ​​massless particles as wave energy like photons energy. In a way similar to the contents of the massive force or the force to apply pressure to the energy?