Single-Ion Counting with an Ultra-Thin-Membrane Silicon Carbide Sensor

Sangregorio, Enrico; Calcagno, Lucia; Medina, Elisabetta; Crnjac, Andreo; Jakšić, Milko; Vignati, Anna; Romano, Francesco; Milluzzo, Giuliana; De Napoli, Marzio; Camarda, Massimo (2023) Single-Ion Counting with an Ultra-Thin-Membrane Silicon Carbide Sensor. Materials, 16 (24). ISSN 1996-1944

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Official URL: https://www.mdpi.com/1996-1944/16/24/7692

Abstract

In recent times, ion implantation has received increasing interest for novel applications related to deterministic material doping on the nanoscale, primarily for the fabrication of solid-state quantum devices. For such applications, precise information concerning the number of implanted ions and their final position within the implanted sample is crucial. In this work, we present an innovative method for the detection of single ions of MeV energy by using a sub-micrometer ultra-thin silicon carbide sensor operated as an in-beam counter of transmitted ions. The SiC sensor signals, when compared to a Passivated Implanted Planar Silicon detector signal, exhibited a 96.5% ion-detection confidence, demonstrating that the membrane sensors can be utilized for high-fidelity ion counting. Furthermore, we assessed the angular straggling of transmitted ions due to the interaction with the SiC sensor, employing the scanning knife-edge method of a focused ion microbeam. The lateral dimension of the ion beam with and without the membrane sensor was compared to the SRIM calculations. The results were used to discuss the potential of such experimental geometry in deterministic ion-implantation schemes as well as other applications.

Item Type:

Article

Uncontrolled Keywords:

silicon carbide; membrane sensor; deterministic ion implantation; counting efficiency; spatial resolution

Subjects:

NATURAL SCIENCES > Physics

Divisions:

Division of Experimental Physics

Projects: