Effect of ion doping on the dislocation-related photoluminescence in [Si.sup.+]-implanted silicon

The study is concerned with the effect of the additional implantation of Si samples with [C.sup.+], [O.sup.+], [B.sup.+], [P.sup.+], and [Ge.sup.+] impurity ions followed by annealing at 800°C on the behavior of the dislocation photoluminescence line D1, induced in the samples by implantation with [...

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Veröffentlicht in:	Semiconductors (Woodbury, N.Y.) N.Y.), 2014-02, Vol.48 (2), p.199
Hauptverfasser:	Mikhaylov, A.N, Belov, A.I, Korolev, D.S, Timofeeva, A.O, Vasiliev, V.K, Shushunov, A.N, Bobrov, A.I, Pavlov, D.A, Tetelbaum, D.I, Shek, E.I
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Sprache:	eng
Schlagworte:	Annealing Photoluminescence Silicon
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container_title	Semiconductors (Woodbury, N.Y.)
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creator	Mikhaylov, A.N Belov, A.I Korolev, D.S Timofeeva, A.O Vasiliev, V.K Shushunov, A.N Bobrov, A.I Pavlov, D.A Tetelbaum, D.I Shek, E.I
description	The study is concerned with the effect of the additional implantation of Si samples with [C.sup.+], [O.sup.+], [B.sup.+], [P.sup.+], and [Ge.sup.+] impurity ions followed by annealing at 800°C on the behavior of the dislocation photoluminescence line D1, induced in the samples by implantation with [Si.sup.+] ions at a stabilized temperature followed by annealing in an oxidizing Cl-containing atmosphere. It is established that the intensity of the D1line strongly depends on the type of incorporated atoms and the dose of additional implantation. An increase in the D1 line intensity is observed upon implantation with oxygen and boron; at the same time, in other cases, the D1 luminescence line is found to be quenched. The mechanisms of such behavior, specifically, the role of oxygen and its interaction with implanted impurities are discussed. DOI:10.1134/S1063782614020183
doi_str_mv	10.1134/S1063782614020183
format	Article
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It is established that the intensity of the D1line strongly depends on the type of incorporated atoms and the dose of additional implantation. An increase in the D1 line intensity is observed upon implantation with oxygen and boron; at the same time, in other cases, the D1 luminescence line is found to be quenched. The mechanisms of such behavior, specifically, the role of oxygen and its interaction with implanted impurities are discussed. 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title	Effect of ion doping on the dislocation-related photoluminescence in [Si.sup.+]-implanted silicon
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