Direct observation of transitions between quantum states with energy differences below 10 neV employing a Sona unit

Abstract: The direct access to atomic transitions between close by quantum states employing standard spectroscopic methods is often limited by the size of the necessary radio-frequency cavities. Here we report on a new tool for fundamental spectroscopy measurements that can overcome this shortcoming. For this, a Sona transition unit was used, i.e., two opposed solenoidal coils that provide an oscillating field in the rest frame of the through-going atomic beam. In this way, we were able to control the induced photon en… Show more

“…Ordinarily, the majority of injected atoms are in the ground state. Although efficient methods to polarize metastable atoms using a Sona coil [40] were recently demonstrated [41], techniques to polarize ground-state neutral beams do not presently exist. The ideal neutral beam for spin-polarized fusion experiments would inject > 10 18 deuterium atoms per second with > 50% polarization.…”

A research program to measure the lifetime of spin polarized fuel

“…Ordinarily, the majority of injected atoms are in the ground state. Although efficient methods to polarize metastable atoms using a Sona coil [40] were recently demonstrated [41], techniques to polarize ground-state neutral beams do not presently exist. The ideal neutral beam for spin-polarized fusion experiments would inject > 10 18 deuterium atoms per second with > 50% polarization.…”

A research program to measure the lifetime of spin polarized fuel

New Application of a Sona Transition Unit: Observation of Direct Transitions between Quantum States with Energy Differences of 10 neV and Below