How Might Tachyons Appear? (2004.04045v1)

Abstract: Assuming the existence of supra luminal matter, referred to as 'tachyonic', we reconsider possible Lorentz style transformations between tachyon observers and sub luminal ('braydons') observers. We consider a unique possibility following from a straightforward argument based on relative motion as a Lie group. The result is novel in that it requires the time direction to be reversed for tachyon observers. We use this result to find the transformation between supra luminal observers. An extended discussion {\it speculates} concerning physical evidence for, and consequences of, a supra luminal regime dual to the sub space luminal regime. It appears that supra luminal particles are likely to be of very low energy and hence be difficult to detect. However, their momentum may be significant depending on their asymptotic mass. Tachyons are candidates for astronomical 'dark matter' and perhaps vacuum energy as manifested in the cosmological constant. Quantum tachyons might be detected as periodic variations in Casimir type measurements corresponding to their De Broglie wavelength. We suggest that supra luminal and sub luminal particles can be entangled at both Cauchy and event horizons, so that transitions may be possible for quantum particles.