Topmetal-L: A Low Noise Charge-Sensitive Pixel Sensor for POLAR2/LPD

Abstract

POLAR-2 is a next-generation space astronomy platform led by China, with its core scientific objective focused on high-precision polarization measurements of gamma-ray bursts. As one of its key payloads, the Low-energy Polarization Detector (LPD) is designed to perform wide-field surveys to capture X-ray polarization information from gamma-ray bursts in the 210 keV energy range. This paper presents Topmetal-L, a dedicated charge-sensitive pixel sensor developed for the LPD prototype upgrade. Fabricated in a 130 nm CMOS process in 2024, the chip integrates a 356 × 512 pixel array with a pixel pitch of 45 μm. Each pixel incorporates a 26 × 26 μm2 charge-collecting window and is capable of simultaneously outputting both energy and position information of deposited charges. Topmetal-L has been systematically optimized for power consumption, noise performance, and readout efficiency. It exhibits an input dynamic range of 04 ke-, a typical charge-to-voltage conversion gain of 76.04 μV/e-, an average equivalent noise charge of approximately 22.8 e-, a sensitive area exceeding 3.69 cm2, and a total power consumption of 720 mW per chip. To meet the requirements of large-area, high-frame-rate readout for gas-based polarization detectors, a sentinel readout scheme is proposed, reducing the full-frame readout time to 730 μs. A prototype Topmetal-L-based gas polarization detection system was evaluated across key energies: it exhibited a residual modulation of 0.26% 0.45% at 5.90 keV, a modulation factor of 66.67% 0.45% for a linearly polarized 8.05 keV source, and a count rate saturated at 15 k counts·cm-2·s-1 when tested at 5.40 keV.

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