Conformal cyclical cosmology is a model in the modern framework of quantum mechanics, advanced by the late theoretical physicist Roger Penrose. In CC, the entire universe oscillates between parallel universes, with each subsequent iteration identifying the previous Big Bang as the beginning of the new. Unlike a theistic model, which assumes that the universe is fixed and unchanging, CC predicts that the laws of thermodynamics are in continuous effect from the beginning of the Universe until the end. The predictions of this model are largely controversial, however. As a result, a variety of alternative cosmologies have been developed, some of which are the subject of ongoing research.
One of these is the idea that the cosmos contains a “C” structure, a bubble of space-time at the very beginning of time. This theory posits that the “C” exists at a very high temperature in a vacuum state with a nearly flat nucleus and that the temperature and the expansion rates of the C push against each other in a feedback loop. Theory suggests that the “C” is not a singular point, but is a region on or slightly beyond the flat nucleus. Cosmologists consider this theory to be a variant of the cosmic inflation theory, which predicted the existence of a small region of space where the rate of expansion was extremely high. Inflation allowed the creation of this small region of high temperature with near vacuum temperatures, and it grew into the present-day cosmology. The theories that this loop created and pushed against itself are the subject of more modern research.
Another version of the theory of cosmology called “cyclic compression” or “cyclic expansion” describes the generation of black holes from the collapse of massive stars. Again, this is the subject of current research. In this case, black holes can exist at very high temperatures, with extremely dense centers. In addition, black holes may be linked to very high energy radiation belts that extend beyond the speed of light.
Another approach to understanding the universe through this model is called the “photon” theory. Physicists have calculated that if a black hole is very near to a very high mass, like a star, it will emit very high frequency radiation. This theory states that this radiation comes from particles that have left the black holes after their original creation. Since these particles come in bunches, they get caught up in the space-time continuum and will eventually collapse into a singular point. This point will result in the creation of smaller points, which will eventually result in the formation of bigger things, such as black holes. Thus, the photon cosmology describes the generation of black holes and their surrounding radiation in much more detail than does the conformal cyclic cosmology model.
The last theory is called the long-ago big bang theory. The big bang created the universe using all the available matter in the cosmos at the time. However, because it did not have the temperature necessary for creating life, it merely existed as an extremely hot vapor of empty space. Therefore, if you observe the universe today, you will find that it is extremely cold, as compared to the temperatures at the time of the big bang. This can be explained by another aspect of this theory, namely that the expansion of the universe was caused by increasing temperatures in the early days of the big bang.
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While some scientists support the inflationary approach to studying the past, others believe that there is another method that should be considered, namely the uniform inflation. According to this school of thought, the laws of thermodynamics are actually wrong, because the properties of the universe, including its temperature, are the same at all times. Because of this, the inflation process cannot bring about a big bang. Instead, it can only cause the appearance of a Bang when a very dense substance collapses under its own weight. In other words, the black holes and the white holes are not the products of inflation but were produced beforehand.
Another idea that is gaining adherents in this field is the super-symmetric universe, which was developed by Sir Richard Lazarus in 1990. According to this theory, all aspects of nature are tightly correlated with each other, which means that nothing can originate from something else. Because of this, there is no need for the inflation theory to be applied, because it is considered to be irrelevant. Because of this, many scientists now believe that the emergence of life on earth is a product of chance rather than of a Creator.
If you want to learn more about the ideas presented above, you can do so online. One of the best websites that contains a great deal of information on these theories is the AEA website. The author of this theory, Mike Chalki, has an entire website dedicated to his work. You will also find other interesting articles online, which explain more fully the nature of this theory. Do keep in mind, however, that all of these ideas are subject to scientific scrutiny, and not all of them can be accepted as truth, especially those that rely on the Big Bang Theory.