Relativistic effects on time scales and signal transmission

Computer Science

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Chronometers, Relativistic Effects, Signal Transmission, Space-Time Functions, Time Measurement, Cosmology, Doppler Effect, Geoids, Mach Inertia Principle, Relativity, Synchronism

Scientific paper

The paper examines the current space-time chronometry views of the clock-transport, the twin paradox, the gravitational field effect, and the Doppler effect. This view assumes a class of privileged, local inertial frames, with all good clocks measuring proper time. The relativistic effects on clock synchronization and frequency comparison are described, stressing the essential role of the geoid. The role of distant matter in determining inertia and local dynamics is not adequately described in the current view, but the cosmic background radiation provides a precise definition and a measurement of the local standard of rest with respect to the universe, which may have a preferential character among all the inertial frames. Various violations of the conventional view based on this conjecture are discussed, and the upper bounds of the discrepancies from the relativistic values are deduced experimentally.

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