LHC Doomsday Claims: Debunking an Alleged Catastrophe

In summary: Oy vey!In summary, there are concerns about the production of strangelets at the LHC, which could potentially lead to a catastrophic "ice-9" reaction, but these fears have been debunked by previous analyses and the fact that the LHC has been running since March without any disastrous consequences. While there may be ongoing discussions and concerns about this issue, it is unlikely to pose a significant threat.
  • #1
Galteeth
69
1
Ok, so most of us are probably familiar with the micro-black hole fears that were pretty baseless. There is a new angle on the LCH doomsday scenario, involving the production of strangelets, which will allegedly produce a catastrophic "ice-9" reaction, flipping all the quarks on Earth or some such. My money is on this being bogus, but I'm not familiar enough with the science to do a thorough debunking. Any help?

http://www.cerntruth.com/?p=125
 
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  • #2
From wikipedia:

Strangelets
Main article: Strangelets

Strangelets are small fragments of strange matter—a hypothetical form of quark matter—that contain roughly equal numbers of up, down, and strange quarks and that are more stable than ordinary nuclei (strangelets would range in size from a few femtometers to a few meters across).[5] If strangelets can actually exist, and if they were produced at the LHC, they could conceivably initiate a runaway fusion process in which all the nuclei in the planet would be converted to strange matter, similar to a strange star.[5]

The probability of the creation of strangelets decreases at higher energies.[5] As the LHC operates at higher energies than the RHIC or the heavy ion programs of the 1980s and 1990s, the LHC is less likely to produce strangelets than its predecessors.[5] Furthermore, models indicate that strangelets are only stable or long-lived at low temperatures. Strangelets are bound at low energies (in the range of 1–10 MeV), while the collisions in the LHC release energies in the range of 14 TeV. The second law of thermodynamics precludes the formation of a cold condensate that is an order of magnitude cooler than the surrounding medium. This can be illustrated by the example of trying to form an ice cube in boiling water.[5]

I was hoping someone could address the specific claims in the "cerntruth" guy's article.
 
  • #3
Oy vey!

The issue with strangelets have been sufficiently addressed when the brouhaha surrounding RHIC was going on.

http://arxiv.org/abs/hep-ph/9910333

I believe the analysis done there is applicable to the LHC as well. One only needs to look at the fact that the moon still exists.

Zz.
 
  • #4
Actually, considering that the LHC has been running since March, one only needs to look at the fact that the earth still exists. :wink:
 
  • #5
ZapperZ said:
Oy vey!

The issue with strangelets have been sufficiently addressed when the brouhaha surrounding RHIC was going on.

http://arxiv.org/abs/hep-ph/9910333

I believe the analysis done there is applicable to the LHC as well. One only needs to look at the fact that the moon still exists.

Zz.
thanks
 

Related to LHC Doomsday Claims: Debunking an Alleged Catastrophe

1. What are the LHC Doomsday claims?

The LHC (Large Hadron Collider) is a particle accelerator located in Switzerland that is used by scientists to study the fundamental building blocks of the universe. Some people have claimed that the experiments conducted at the LHC could lead to the end of the world, known as "LHC Doomsday claims".

2. What is the basis for these claims?

The main concern is that the LHC could create a black hole or a strangelet (a hypothetical type of particle) that would destroy the Earth. These claims are based on a misunderstanding of the science behind the LHC and the safety precautions in place.

3. How have these claims been debunked?

Scientists have thoroughly studied the potential risks of the LHC and have concluded that there is no danger of creating a black hole or strangelet. The energy levels produced at the LHC are similar to those found in nature, and any particles created are short-lived and harmless.

4. What safety measures are in place at the LHC?

The LHC is equipped with multiple safety features to ensure the protection of both the experiments and the surrounding environment. These include built-in fail-safes, radiation monitoring, and emergency shutdown procedures.

5. What are the potential benefits of the LHC experiments?

The LHC experiments have already led to many groundbreaking discoveries in the field of physics. These include the confirmation of the existence of the Higgs boson, the study of dark matter and antimatter, and further understanding of the origins of the universe. The knowledge gained from the LHC experiments has the potential to revolutionize our understanding of the world and lead to new technologies and advancements.

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