Abstract
Establishing accurate time standards across the globe is very important.
The success of any real-time task depends on maintaining time
synchronization in its system. Space technology helps in enabling global
dissemination of time. In this paper, we propose a model that uses
satellites to transfer the time information extracted from three qubits
that are precisely synchronized using quantum synchronization. By
applying an external field with wavelength 813.32 nm, we can synchronize
the three qubits (each carried in another satellite) to oscillate at the
same frequency. We can ideally achieve a precision of 1.6 ×
1015 signals per second, and show the corresponding.
Allan deviation curve to analyze the stability of our system for
different noise strengths. We introduce the possibility of using quantum
synchronization on satellite-carried clocks to distribute accurate time
and frequency standards.