Salient features of the fabrication of Si(Li) detectors with a large-volume working region

Abstract: Semiconductor detectors with a large working volume are needed to solve certain paroblems in nuclear spectroscopy. The development of such detectors became possible with advances in growing large-diameter silicon single crystals with the required properties, satisfying the requirements for obtaining detectors based on them. One important requirement for obtaining detectors with a large working volume is that its resistance must be high. This is achieved by using the lithium ion drift process in the volume of t… Show more

“…For comparison, all spectra have been normalized to the maximum in the left part of the spectrum (point А in Fig. 5), which can be attributed to the decrease in the detector efficiency at low energies [1,5,6].…”

Laboratory nuclear-physics methods for determining the characteristics of charged particle silicon detectors

“…For comparison, all spectra have been normalized to the maximum in the left part of the spectrum (point А in Fig. 5), which can be attributed to the decrease in the detector efficiency at low energies [1,5,6].…”

Laboratory nuclear-physics methods for determining the characteristics of charged particle silicon detectors

“…However, up to date require ments imposed on these detectors lead to the necessity of increasing their sizes up to d > 50-100 mm and W > 2 mm. In this case, physical, technological, and struc tural decisions should take the properties of the initial large size crystal into account in an attempt to meet optimum electrical, radiometric, and spectrometric characteristics of the detectors [6][7][8][9].…”

Special features of formation of high-performance semiconductor detectors based on αSi-Si(Li) heterostructures

A versatile spectrometer based on a large-volume Si(Li) p-i-n structure