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- Tachyon - Wikipedia
A tachyon ( ˈ t æ k i ɒ n ) or tachyonic particle is a hypothetical particle that always travels faster than light Physicists posit that faster-than-light particles cannot exist because they are inconsistent with the known laws of physics
- Tachyons: Facts about these faster-than-light particles | Space
What is a tachyon? Tachyons are one of the most interesting elements arising from Einstein’s theory of special relativity
- Tachyon | Faster-Than-Light, Quantum Mechanics, Particles | Britannica
Just as an ordinary particle such as an electron can exist only at speeds less than that of light, so a tachyon could exist only at speeds above that of light, at which point its mass would be real and positive
- Physicists suggest tachyons can be reconciled with the special theory . . .
Once this fact was incorporated into the theory, all the difficulties mentioned earlier completely disappeared and tachyon theory became mathematically consistent
- What is known about tachyons, theoretical particles that travel faster . . .
Tachyons have never been found in experiments as real particles traveling through the vacuum, but we predict theoretically that tachyon-like objects exist as faster-than-light 'quasiparticles
- Tachyon - Simple English Wikipedia, the free encyclopedia
A tachyon is any hypothetical particle that can travel faster than the speed of light Most scientists do not believe that tachyons exist Einstein's theory of special relativity states that nothing can accelerate faster than the speed of light, while tachyons are theorized to be constantly traveling faster than the speed of light
- This Particle Could Travel Back in Time: What Is a Tachyon?
An extraordinary particle called the tachyon could travel back in time, scientists say Here's what we know about it
- Do tachyons exist? - Department of Mathematics
Tachyon is the name given to the supposed "fast particle" which would move with v > c Tachyons were first introduced into physics by Gerald Feinberg, in his seminal paper "On the possibility of faster-than-light particles" [Phys Rev 159 , 1089–1105 (1967)]
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