Using Neutrinos to test the Time-Energy Uncertainty Relation in an Extreme Regime

Abstract

We discuss a direct test of the relation of time and energy in the very long-lived decay of tritium (H3) (meanlife τ ~ 18 yrs) with the width ~ 10-24 eV [set by the time-energy uncertainty (TEU)], using the newfound possibility of resonance reactions H3 He3 with E/E ~ 5x10-29. The TEU is a keystone of quantum mechanics, but probed for the first time in this extreme time-energy regime. Forestalling an apparent deviation from the TEU, we discuss the ramifications and a possible generalization of the TEU as E t > (/2)[1+( t/T)n] where t = τ is the time of measurement (the lifetime of the state), T=L/c the time for light to cross the Universe ~ 3x1018 s, and n a parameter subject to future measurements. (by R. S. Raghavan.)