Two-dimensional single-crystal photonic scintillator for enhanced X-ray imaging

TL;DR

This paper introduces a two-dimensional photonic scintillator that enhances X-ray imaging by increasing luminescence efficiency and signal strength through an optical guiding effect, enabling higher sensitivity and faster detection.

Contribution

The study presents a novel 2D photonic scintillator structure that reduces luminescence leakage and boosts signal intensity, improving X-ray imaging performance.

Findings

Luminescence leakage reduced by optical guiding effect.

Signal intensity increased by approximately 2 times.

Potential to enhance output rate by an order of magnitude.

Abstract

The evolution of X-ray detection technology has significantly enhanced sensitivity and spatial resolution in non-destructive imaging of internal structure. However, the problem of low luminescence and transparency of scintillator materials restricts imaging with lower radiation doses and thicker materials. Here, we propose a two-dimensional photonic scintillator for single crystal and demonstrate that the optical guiding effect emerging from the structure reduces luminescence leakage and increases the signal intensity by around a factor of 2 from 200 to 450 kV. This approach has the potential to enhance the output rate by an order of magnitude. The photonic structure features a fine array pitch and large-scale detection area with fast fabrication time. Our scheme paves the way for high sensitivity X-ray imaging.