Acceleration effects on atomic clocks

Dahia, F.; Silva, P J Felix da

doi:10.1088/0264-9381/32/17/177001

Class. Quantum Grav.

2015

DOI: 10.1088/0264-9381/32/17/177001

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Acceleration effects on atomic clocks

F. Dahia

P J Felix da Silva

Abstract: We consider a free massive particle inside a box which is dragged by Rindler observers. Admitting that the particle obeys the Klein-Gordon equation, we find the frequencies of the stationary states of this system. Transitions between the stationary states are employed to set a standard frequency for a toy atomic clock. Comparing the energy spectrum of the accelerated system with the energy spectrum of an identical system in an inertial frame, we determine the influence of the instantaneous acceleration on the … Show more

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Cited by 2 publications

References 29 publications

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Reciprocity principle and relative accelerations in the theory of relativity

Rashidi

Ahmadi

2019

American Journal of Physics

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It is proved that in the theory of relativity, the magnitudes of the relative accelerations of two observers with respect to each other can be unequal. The breaking of a reciprocal relationship between the accelerations is a property of special relativity, which seems not to have been mentioned previously, even though it is in contrast with the prediction of Newtonian physics. As an application of this result, we determine the acceleration of a freely falling particle with respect to a locally static observer in the Schwarzschild space-time and show that this acceleration, unlike the prediction of Newtonian physics, depends on the initial value of the velocity of the freely falling particle. It is worthwhile to emphasize that this result is not a consequence of the well-known behavior of special relativity, which makes the measured acceleration of an object differ from one inertial frame to another.

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Reciprocity principle and relative accelerations in the theory of relativity

Rashidi

Ahmadi

2019

American Journal of Physics

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What do light clocks say to us regarding the so-called clock hypothesis?

Valente¹

2018

THEORIA

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The clock hypothesis is taken to be an assumption independent of special relativity necessary to describe accelerated clocks. This enables to equate the time read off by a clock to the proper time. Here, it is considered a physical system–the light clock–proposed by Marzke and Wheeler. Recently, Fletcher proved a theorem that shows that a sufficiently small light clock has a time reading that approximates to an arbitrary degree the proper time. The clock hypothesis is not necessary to arrive at this result. Here, one explores the consequences of this regarding the status of the clock hypothesis.

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Acceleration effects on atomic clocks

Cited by 2 publications

References 29 publications

Reciprocity principle and relative accelerations in the theory of relativity

Reciprocity principle and relative accelerations in the theory of relativity

What do light clocks say to us regarding the so-called clock hypothesis?

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