Investigating the 4D3/2|3,2--4D5/2|3,2 transition in Nb4+ for a THz atomic clock

Abstract

In this work, the 4D3/2|3,2 → 4D5/2|3,2 transition in the Nb4+ ion is identified as a promising candidate for a terahertz (THz) atomic clock, with the transition frequency occurring at 56.0224 THz. This transition is primarily driven by the magnetic dipole decay channel, which can easily be accessed by a laser. We focus on the stable 93Nb isotope, which has 100\% natural abundance and a nuclear spin of I=9/2 for experimental advantage. Our data analysis allows us to estimate potential systematic shifts in the proposed clock system, including those due to blackbody radiation, electric quadrupole, second-order Zeeman, and second-order Doppler shifts. The scheme presented in this study can help suppress the AC Stark and electric quadrupole shifts in the clock frequency measurement. All these analyses suggest that the proposed THz atomic clock using Nb4+ could be valuable in both quantum thermometry and frequency metrology.

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