The effect of irregularities in the earth’s rotation (precession and nutation of the earth’s axis... more The effect of irregularities in the earth’s rotation (precession and nutation of the earth’s axis of rotation, oscillations in the modulus of the angular velocity, periodic deviations in the line of the poles, and the angular momentum of the globe) on the frequency and time of high-stability atomic clocks are examined in terms of the theory of relativity. It is shown that the relative shift in frequency and time owing to these effects can exceed 5·10^{–16}
The effect of irregularities in the earth’s rotation (precession and nutation of the earth’s axis... more The effect of irregularities in the earth’s rotation (precession and nutation of the earth’s axis of rotation, oscillations in the modulus of the angular velocity, periodic deviations in the line of the poles, and the angular momentum of the globe) on the frequency and time of high-stability atomic clocks are examined in terms of the theory of relativity. It is shown that the relative shift in frequency and time owing to these effects can exceed 5·10^{–16}
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oscillations in the modulus of the angular velocity, periodic deviations in the line of the poles, and the
angular momentum of the globe) on the frequency and time of high-stability atomic clocks are examined in
terms of the theory of relativity. It is shown that the relative shift in frequency and time owing to these effects
can exceed 5·10^{–16}
oscillations in the modulus of the angular velocity, periodic deviations in the line of the poles, and the
angular momentum of the globe) on the frequency and time of high-stability atomic clocks are examined in
terms of the theory of relativity. It is shown that the relative shift in frequency and time owing to these effects
can exceed 5·10^{–16}