Fine-structure constant sensitivity of the Th-229 nuclear clock transition

Abstract

Nuclear laser spectroscopy at the 10-12 precision level (Nature 633.8028 (2024): 63-70) determined the fractional change in the nuclear quadrupole moment of 229Th upon excitation, Delta Q0/Q0 = 1.791(2)%. Such high-accuracy nuclear parameters enable stringent tests and refinement of 229Th nuclear models. Using a semi-classical prolate-spheroid model, we quantify the transition frequency's sensitivity to fine-structure constant variations as K = 5900(2300), with uncertainty dominated by the measured charge-radius change Delta < r2 >. This supports the predicted higher alpha-sensitivity of nuclear clocks over atomic clocks, important for new-physics searches. We find Delta Q0 strongly dependent on nuclear volume, challenging the constant-volume approximation. The deviation between measured and predicted Delta Q0/Q0 underlines the need for improved modeling and measurement of additional nuclear parameters. We explicitly assess the octupole contribution to alpha-sensitivity.