Diamond-based vacuum UV photodetectors for space applications

During the last decade, many studies have addressed the use of synthetic diamond as sensing material for deep UV photon detection. Solar missions, as the Solar Orbiter and the Solar Probe will require UV photon detectors with unprecedented sensitivity at wavelengths (lambda) <200 nm and radiation hardness. Diamond appears to be the ideal photosensitive material for such applications, as it is very solar blind (105 rejection ratio (lambda) >230 nm and 107 above 400 nm), its very low dark current level avoids the use of cooling systems, has a high UV responsivity and it is radiation hard and chemically inert. This paper is a review of our recent results on the electro- optical properties of diamond and a comparative analysis and characterization of the performances of different diamond- based photodetectors in the vacuum UV. In addition, we will describe some of the photodetectors that are under development for space applications and that will exploit the properties of diamond.

Diamond-based vacuum UV photodetectors for space applications / Pace, Emanuele; Cidronali, Alessandro; Libertino, S.; Uslenghi, M.; Coffa, S.; Focardi, Mauro; Collodi, Giovanni; Fiorini, M.; Pini, Andrea; DE SIO, Antonio. - STAMPA. - 4498:(2001), pp. 121-130. (Intervento presentato al convegno UV/EUV and Visible Space Instrumentation for Astronomy and Solar Physics) [10.1117/12.450069].

Diamond-based vacuum UV photodetectors for space applications

PACE, EMANUELE;CIDRONALI, ALESSANDRO;S. Libertino;M. Uslenghi;S. Coffa;FOCARDI, MAURO;COLLODI, GIOVANNI;M. Fiorini;PINI, ANDREA;DE SIO, ANTONIO

2001

Abstract

During the last decade, many studies have addressed the use of synthetic diamond as sensing material for deep UV photon detection. Solar missions, as the Solar Orbiter and the Solar Probe will require UV photon detectors with unprecedented sensitivity at wavelengths (lambda) <200 nm and radiation hardness. Diamond appears to be the ideal photosensitive material for such applications, as it is very solar blind (105 rejection ratio (lambda) >230 nm and 107 above 400 nm), its very low dark current level avoids the use of cooling systems, has a high UV responsivity and it is radiation hard and chemically inert. This paper is a review of our recent results on the electro- optical properties of diamond and a comparative analysis and characterization of the performances of different diamond- based photodetectors in the vacuum UV. In addition, we will describe some of the photodetectors that are under development for space applications and that will exploit the properties of diamond.

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	Data di pubblicazione
	
				2001
			
	Titolo del volume degli atti
	
				Proceedings Volume 4498, UV/EUV and Visible Space Instrumentation for Astronomy and Solar Physics;
			
	Rivista
	
				PROCEEDINGS OF SPIE
			
	Titolo del congresso
	
				UV/EUV and Visible Space Instrumentation for Astronomy and Solar Physics
			
	Tutti gli autori
	
						Pace, Emanuele; Cidronali, Alessandro; Libertino, S.; Uslenghi, M.; Coffa, S.; Focardi, Mauro; Collodi, Giovanni; Fiorini, M.; Pini, Andrea; DE SIO, A...espandi
						
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/781300

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