# A Miniaturized Design for a Terahertz Tri-Mirror CATR with High QZ Characteristics

**Authors:** Zhi Li, Yuan Yao, Haiming Xin, Daocai Xiang

PMC · DOI: 10.3390/s25123751 · 2025-06-15

## TL;DR

This paper introduces a compact terahertz antenna testing system that improves performance while reducing size.

## Contribution

A novel miniaturized tri-mirror CATR design for terahertz frequencies with enhanced quiet-zone characteristics.

## Key findings

- The system achieves cross-polarization levels below −40 dB in the 100–500 GHz band.
- Co-polarization amplitude and phase ripples in the QZ are within acceptable limits for practical use.
- The system's compact size (0.61 m × 0.2 m × 0.66 m) makes it suitable for engineering applications.

## Abstract

This paper proposes a miniaturized design for a terahertz tri-mirror compact antenna test range (CATR) system, composed of a square-aperture paraboloid primary mirror with a side length of 0.2 m and two shaped mirrors with circular apertures of 0.06 m and 0.07 m in diameter. The design first employs the cross-polarization cancelation method based on beam mode expansion to determine the geometric configuration of the system, thereby enabling the structure to exhibit low cross-polarization characteristics. Subsequently, the shaped mirrors, with beamforming and wave-front control capabilities, are synthesized using dynamic ray tracing based on geometric optics (GO) and the dual-paraboloid expansion method. Finally, the strong edge diffraction effects induced by the small-aperture primary mirror are suppressed by optimizing the desired quiet-zone (QZ) field width, adjusting the feed-edge taper, and incorporating rolled-edge structures on the primary mirror. Numerical simulation results indicate that within the 100–500 GHz frequency band, the system’s cross-polarization level is below −40 dB, while the amplitude and phase ripples of the co-polarization in the QZ are, respectively, less than 1.6 dB and 10°, and the QZ usage ratio exceeds 70%. The designed CATR was manufactured and tested. The results show that at 183 GHz and 275 GHz, the measured co-polarization amplitude and phase ripples in the system’s QZ are within 1.8 dB and 15°, respectively. While these values deviate slightly from simulations, they still meet the CATR evaluation criteria, which specify QZ co-polarization amplitude ripple < 2 dB and phase ripple < 20°. The overall physical structure sizes of the system are 0.61 m × 0.2 m × 0.66 m. The proposed miniaturized terahertz tri-mirror CATR design methodology not only enhances the QZ characteristics but also significantly reduces the spatial footprint of the entire system, demonstrating significant potential for practical engineering applications.

## Full-text entities

- **Diseases:** injury to (MESH:D014947)
- **Chemicals:** gold (MESH:D006046), stainless steel (MESH:D013193), CATR (-), aluminum (MESH:D000535)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Mutations:** N5242A, D0303R

## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12197213/full.md

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Source: https://tomesphere.com/paper/PMC12197213