Bohm's faster than light information travel experiment

In summary, Bohm's faster than light information travel experiment aimed to test the theory of quantum entanglement and its implications for faster-than-light communication. The experiment involved two particles that were entangled and separated by a significant distance, with one particle being observed while the other was manipulated. The results showed a correlation between the two particles, suggesting that information was being transmitted faster than the speed of light. This challenged the principles of special relativity and sparked further research into the potential of quantum entanglement for instant communication. However, the results have been met with skepticism and the debate surrounding faster-than-light communication continues.
  • #1
Selnex
[SOLVED] Bohm's faster than light information travel experiment

can anyone please give me a somewhat detailed account as to the experiment Bohm performed which dealt with splitting a particle (i think) and changing the direction of part of the particle which made the other part that was no longer connected change direction but the change in direction occurred faster than light could have traveled to relay the change in direction activity.
 
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  • #2
i think your talking about ENTANGLMENT, i sugest you try the
WIKIPIDIA WEB DICTIONARY.
 
  • #3


Bohm's experiment, also known as the delayed choice quantum eraser experiment, was conducted in 1982 by physicist David Bohm and his colleagues. The experiment aimed to test the concept of non-locality in quantum mechanics, which suggests that particles can have instantaneous communication with each other, even if they are separated by large distances.

The experiment involved a photon being directed towards a beam splitter, which would split the photon into two paths. One path would lead to a detector, while the other path would lead to a second beam splitter. The second beam splitter would then split the photon into two more paths, with one path leading to a detector and the other path leading to a delay line.

The delay line was designed to delay the photon's arrival at the second detector, effectively creating a situation where the photon's path could be changed after it had already passed through the first beam splitter. This change in path would then impact the behavior of the photon at the first detector.

What Bohm and his colleagues found was that when they manipulated the delay line to change the path of the photon after it had already passed through the first beam splitter, it still had an impact on the behavior of the photon at the first detector. This suggested that the photon was somehow able to communicate its changed path to the first detector instantaneously, faster than the speed of light.

This experiment sparked a lot of debate and controversy in the scientific community, as it seemed to contradict Einstein's theory of relativity, which states that nothing can travel faster than the speed of light. However, many physicists have since proposed explanations for this phenomenon, such as the idea of entanglement, where particles can become connected in a way that allows them to communicate with each other instantaneously, regardless of the distance between them.

In conclusion, Bohm's faster than light information travel experiment challenged our understanding of the fundamental principles of physics and sparked further research into the concept of non-locality and quantum entanglement. While the results of the experiment may seem counterintuitive, they have pushed the boundaries of our knowledge and continue to be a topic of great interest and debate in the scientific community.
 

1) What is Bohm's faster than light information travel experiment?

Bohm's faster than light information travel experiment is a thought experiment proposed by physicist David Bohm in the 1950s. It aims to test the concept of non-locality, where particles can have instantaneous communication with each other regardless of distance.

2) How does the experiment work?

In Bohm's experiment, two particles are created, separated, and then sent in opposite directions. When a measurement is made on one particle, the other particle is expected to instantly react, even if they are far apart.

3) Has the experiment been conducted?

No, Bohm's faster than light information travel experiment has not been conducted in a physical setting. It remains a thought experiment, as it is currently impossible to create and manipulate particles with the required properties for this experiment.

4) What are the implications of this experiment?

If the experiment were to be successfully conducted, it would challenge the traditional understanding of causality and the speed of light being the maximum speed limit. It could also provide evidence for the controversial concept of quantum entanglement.

5) Why is this experiment important?

Bohm's faster than light information travel experiment is important because it raises questions about our current understanding of the fundamental laws of physics. It also has implications for technologies such as quantum computing and communication, which rely on the principles of non-locality.

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