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Why do the relativistic masses and momenta of faster-than-light particles decrease as their speeds increase? (English) Zbl 1302.83003

Summary: It has recently been shown within a formal axiomatic framework using a definition of four-momentum based on the Stückelberg-Feynman-Sudarshan-Recami “switching principle” that Einstein’s relativistic dynamics is logically consistent with the existence of interacting faster-than-light inertial particles. Our results here show, using only basic natural assumptions on dynamics, that this definition is the only possible way to get a consistent theory of such particles moving within the geometry of Minkowskian spacetime. We present a strictly formal proof from a streamlined axiom system that given any slow or fast inertial particle, all inertial observers agree on the value of \(\mathsf{m}\cdot \sqrt{|1-v^2|}\), where \(\mathsf{m}\) is the particle’s relativistic mass and \(v\) its speed. This confirms formally the widely held belief that the relativistic mass and momentum of a positive-mass faster-than-light particle must decrease as its speed increases.

MSC:

83A05 Special relativity

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