Abstract We succeeded in detecting neutrons using superconducting tunnel junctions (STJs) fabricated on a single crystal of Li 2 B 4 O 7 . Neutrons are captured in the crystal by the nuclear reactions 6 Li+n→T+alpha+4.78 MeV and 10 B+n→ 7 Li+alpha+2.3 MeV, which excite a large number of phonons in the substrate. The phonons propagate in the absorber and are measured by the STJs. We selected a single crystal of Li 2 B 4 O 7 as the absorber material because of properties such as the large neutron cross-section of 6 Li and 10 B, low γ-ray sensitivity, short particle range in the substrate, and fast phonon velocity. Series-connected or multiple STJs on the crystal would enable two-dimensional neutron imaging with high detection efficiency, low γ-ray background, and a high spatial resolution of a few microns. In this paper, we demonstrate neutron detection by STJs and report the basic characteristics of the fabricated STJs, including their X-ray response and neutron detection. The correlation in pulse heights between two junctions located ∼1.3 mm apart clearly indicates the possibility of neutron imaging.

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