There should also be General Relativity effects from the Earth’s gravitational field (and its rotation). Whether they would have any impact on the measured time of the neutrino time-of-flight is beyond me, though...
The rotational effects (also known as frame dragging) are probably negligible, given that it took the Gravity Probe B 7 years of data analysis to confirm its detection using dedicated equipment.
The gravitational effect on time of flight, known as the Shapiro time delay is of the order of 2GM/c^3, where M is the mass of the Earth, or about 0.03ns, too small to matter.
There should also be General Relativity effects from the Earth’s gravitational field (and its rotation). Whether they would have any impact on the measured time of the neutrino time-of-flight is beyond me, though...
The rotational effects (also known as frame dragging) are probably negligible, given that it took the Gravity Probe B 7 years of data analysis to confirm its detection using dedicated equipment.
The gravitational effect on time of flight, known as the Shapiro time delay is of the order of 2GM/c^3, where M is the mass of the Earth, or about 0.03ns, too small to matter.