25.02.2014 - (idw) Ruprecht-Karls-Universitt Heidelberg <\/p>\n
Did the universe begin with a hot Big Bang or did it slowly thaw from an extremely cold and almost static state? Prof. Dr. Christof Wetterich, a physicist at Heidelberg University, has developed a theoretical model that complements the nearly 100-year-old conventional model of cosmic expansion. According to Wetterichs theory, the Big Bang did not occur 13.8 billion years ago instead, the birth of the universe stretches into the infinite past. This view holds that the masses of all particles constantly increase. The scientist explains that instead of expanding, the universe is shrinking over extended periods of time. Press Release Heidelberg, 25 February 2014 <\/p>\n
How Did the Universe Begin: Hot Big Bang or Slow Thaw? Heidelberg physicist develops a new theoretical model in which the Big Bang stretches into the infinite past <\/p>\n
Did the universe begin with a hot Big Bang or did it slowly thaw from an extremely cold and almost static state? Prof. Dr. Christof Wetterich, a physicist at Heidelberg University, has developed a theoretical model that complements the nearly 100-year-old conventional model of cosmic expansion. According to Wetterichs theory, the Big Bang did not occur 13.8 billion years ago instead, the birth of the universe stretches into the infinite past. This view holds that the masses of all particles constantly increase. The scientist explains that instead of expanding, the universe is shrinking over extended periods of time. <\/p>\n
Cosmologists usually call the birth of the universe the Big Bang. The closer we approach the Big Bang in time, the stronger the geometry of space and time curves. Physicists call this a singularity a term describing conditions whose physical laws are not defined. In the Big Bang scenario, the spacetime curvature becomes infinitely large. Shortly after the Big Bang, the universe was extremely hot and dense. Prof. Wetterich believes, however, that a different picture is also possible. If the masses of all elementary particles grow heavier over time and gravitational force weakens, the universe could have also had a very cold, slow start. In that view, the universe always existed and its earliest state was virtually static, with the Big Bang stretching over an infinitely long time in the past. The scientist from the Institute for Theoretical Physics assumes that the earliest events that are indirectly observable today came to pass 50 trillion years ago, and not in the billionth of a billionth of a billionth of a second after the Big Bang. There is no longer a singularity in this new picture of the cosmos, says Prof. Wetterich. <\/p>\n
Wetterich stresses that this in no way renders the previous view of the Big Bang invalid, however. Physicists are accustomed to describing observed phenomena using different pictures. Light, for example, can be depicted as particles and as a wave. Similarly, his model can be seen as a picture equivalent to the Big Bang. This is very useful for many practical predictions on the consequences that arise from this new theoretical approach. However, describing the birth of the universe without a singularity does offer a number of advantages, emphasises Prof. Wetterich. And in the new model, the nagging dilemma of there must have been something before the Big Bang is no longer an issue. <\/p>\n
Publications: C. Wetterich: Hot big bang or slow freeze? arXiv:1401.5313 [astro-ph.CO] C. Wetterich: Variable gravity Universe, Physical Review D 89, 024005 (6 January 2014), doi: 10.1103\/PhysRevD.89.024005 <\/p>\n
Internet information: http:\/\/www.thphys.uni-heidelberg.de\/~wetteric<\/a> <\/p>\n Contact: Prof. Dr. Christof Wetterich Institute for Theoretical Physics Phone: +49 6221 54-9340 c.wetterich@thphys.uni-heidelberg.de<\/a> <\/p>\n Communications and Marketing Press Office, phone: +49 6221 54-2311 presse@rektorat.uni-heidelberg.de<\/a><\/p>\n <\/p>\n Read this article:<\/p>\n How Did the Universe Begin: Hot Big Bang or Slow Thaw?<\/a><\/p>\n","protected":false},"excerpt":{"rendered":" 25.02.2014 - (idw) Ruprecht-Karls-Universitt Heidelberg Did the universe begin with a hot Big Bang or did it slowly thaw from an extremely cold and almost static state? Continue reading