Investigating solid $\alpha-^{15}$N$_{2}$ as a new source of ultra-cold neutrons

TL;DR

This study measures the dynamical structure factor of solid $ ext{^{15}N}_2$ at low temperatures to evaluate its potential as an ultra-cold neutron source, finding promising properties compared to deuterium.

Contribution

It provides the first assessment of solid $ ext{^{15}N}_2$ as a UCN converter, including cross-section measurements and up-scattering mean free path analysis.

Findings

UCN production cross-section is about 20% of deuterium's.

Up-scattering mean free path at 5.9 K is approximately 46 cm.

Potential for large-volume UCN sources with high isotopic purity.

Abstract

The dynamical structure factor of solid $^{15}$N$_{2}$ in the $\alpha$ phase ($T<35$K) is measured at the IN4 time-of-flight spectrometer at the Institut Laue Langevin, and the potential performance of this substance as a UCN converter is assessed. The cross-section to down-scatter neutrons to ultra-cold neutron energies is determined as a function of incident energy, as well as the up-scattering mean free path. The UCN production cross-section is found to be approximately 20% of that of deuterium. However, UCN with energy 181 neV have an up-scattering mean free path of 46 cm at $T=5.9$ K, which is $\sim20$ times larger than deuterium. Therefore, a large volume $\alpha-^{15}$N$_{2}$ source may produce an improved UCN density if sufficient isotopic purity can be achieved.