The universe is a mysterious place. We don’t know why it is, and there are so many unanswered questions about how it is. But what if it was created on purpose by an intelligent entity? Is there a way we can find it?
In 2005, a pair of physicists proposed that if there were a creator, they could encode a message in the background radiation of the universe, when light was first released to flow freely through space. This light is called Cosmic Microwave Background (CMB).
Now, Michael Hippk, an astrophysicist at the Sonberg Observatory and Breakthrough Liege in Germany, has discovered this message by translating temperature variations into CMB into binary bit flow.
What he recovered seems completely meaningless.
Hippa’s paper describing his methods and findings has been uploaded to the pre-print server archive, (and thus remains to be peer-reviewed); The work involves bitcoin streaming so that other interested parties can study it for themselves.
The cosmic microwave background is an incredibly useful relic of the early universe. It is about 380,000 years after the Big Bang. Before this, the universe was completely dark and opaque, so hot and ga ense that atoms could not form; Protons and electrons were flying around in the form of ionized plasma.
As the universe cools and expands, it can combine protons and electrons to form neutral hydrogen atoms which we call the age of reincarnation. The space became clear, and light could move freely through it for the first time.
This first light is still to be found today, albeit in a daze, by suffocating all known places. That is the CMB. Since the early universe was not uniform, very slight fluctuations in the temperature of the CMB varied in density in the eve of today’s recovery manifest.
Because of this ubiquity, reg Reagan University theoretical physicists Stephen Sue and Anthony Zee of the University of California, Santa Barbara argued – in full theory – that the CMB would create a complete billboard on which to leave a message that would be visible to all. Technological culture in the universe.
“Our work does not in any way support the intelligent design movement,” he wrote in a 2006 paper, “but asks, and tries to answer, the whole scientific question of what the medium and message might be if there really was a message.”
They proposed that binary message could be encoded in temperature variations in CMB. Hippie has tried to find this out – first by addressing the claims made by Sue and Zee, and then by using data to try and find the message.
“[Hsu and Zee’s] The assumptions were, first, that some of the best universes have been created. Second, that the Creator really wanted to inform us that the universe was created on purpose, “Hippak wrote.
“Then, the question is: how will they send the message? The CMB is a clear choice, as it is the largest billboard in the sky, and visible to all technological cultures. Sue and Zee argue that the message in the message is CMB space and time. Will be the same for all observers in the meantime and the information content may be reasonably large (thousands of bits).
There are, hippies found, some problems with these claims. The first is that the CMB is still cooling. It started at about 3,000 Kelvin; Now, 13.4 billion years later, it is 2.7 Kelvin. As the age of the universe continues, CMB will eventually become undiagnosed. It can take a further 10 duodenal years (10)40), But the CMB will fade.
Aside from the fact that physicists discovered the answer to Sue and Xena’s paper back in 2006, CMB is unlikely to look exactly the same in the sky for different observers at different locations. In addition, Hippak argues that, due to the frontal emission from the galaxy, we cannot see the entire CMB. And we have only one sky to measure, which represents the internal numerical uncertainty in every creative observation we make.
Based on these constraints, Hippak estimates that the content of the data will be much less than indicated by Hu and Zee – only 1000 bits. This gave him a good structure for the actual search of the message.
Both Planck Satellite and the Wilkinson Microwave Anisotropy Probe (WMAP) observed and recorded temperature fluctuations in CMB. It is from these datasets that Hippak racked its own bitstream, comparing the results of each dataset to find matching bits.
The first 500 bits of the message are illustrated below. Blake’s values were similar in both Planck and WMAP datasets and are considered to be accurate with 90 percent probability. Values in red deviation; Hippie chose Planck values, and he is accurate with only a 60 percent probability.
Rather than change the values, he found, the situation has not improved. Searching the on-line encyclopedia of integer sequences did not yield any convincing results, nor did the data move to the approximate location of the infinite future.
Hipke wrote, “I don’t find any meaningful message in the actual beat-stream.
“We may conclude that there is no clear message in the CMB’s sky. Although it is not clear whether there is a creator, we live in imitation, or whether the message was printed correctly in the previous part, but we failed. Gone to understand. “
Whether any of these options matter or not, the CMB has a lot to tell us, as Sue and Zina noted beautifully in the 2005 response.
Douglas Scott and James Zibin, physicists at the University of British Columbia, wrote, “The CMB encodes a repository of information about the formation of the celestial universe and possibly the nature of physics at the highest energy level.”
“The universe has given us a message on its own.”
The hippocampus paper can be read archive at full.
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