A comparative study is presented of the electronic and atomic structure of the interactive Cu/Si and Cu/InP interfaces. The authors use surface sensitive techniques, including soft x-ray photoemission and photon- and electron-induced Auger electron spectroscopy (AES), to show the strikingly similar chemical reactions and electronic properties at both interfaces. For both Cu/Si and Cu/InP, the valence band spectra and core level intensity profiles show intermixing of the metal with the substrate atoms. Moreover, for both semiconductors, the increase in Cu coverage induces an increase of the width of the SiL//2//,//3VV (approximately 92 ev) and PL//2//,//3VV (approximately 120 ev) Auger peaks at the earliest stage of barrier formation followed by a 4. 4 ev splitting for higher coverages. These experimental observations lead to very similar models of the chemical reaction at the interface and the formation of the intermixed region and indicate bonding between Cu and P or Si for the InP and Si interfaces.
Similarities in chemical intermixing at the Cu/InP and Cu/Si interfaces / T. Kendelewicz, G. Rossi, W.G. Petro, I.A. Babalola, I. Lindau, W.E. Spicer. - In: JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B: MICROELECTRONICS PROCESSING AND PHENOMENA. - ISSN 0734-211X. - 1:3(1983), pp. 564-569. ((Intervento presentato al 10. convegno Proc of the Annu Conf on the Phys and Chem of Semicond Interfaces tenutosi a Santa Fe nel 1983.
Similarities in chemical intermixing at the Cu/InP and Cu/Si interfaces
G. RossiSecondo
;
1983
Abstract
A comparative study is presented of the electronic and atomic structure of the interactive Cu/Si and Cu/InP interfaces. The authors use surface sensitive techniques, including soft x-ray photoemission and photon- and electron-induced Auger electron spectroscopy (AES), to show the strikingly similar chemical reactions and electronic properties at both interfaces. For both Cu/Si and Cu/InP, the valence band spectra and core level intensity profiles show intermixing of the metal with the substrate atoms. Moreover, for both semiconductors, the increase in Cu coverage induces an increase of the width of the SiL//2//,//3VV (approximately 92 ev) and PL//2//,//3VV (approximately 120 ev) Auger peaks at the earliest stage of barrier formation followed by a 4. 4 ev splitting for higher coverages. These experimental observations lead to very similar models of the chemical reaction at the interface and the formation of the intermixed region and indicate bonding between Cu and P or Si for the InP and Si interfaces.
Pubblicazioni consigliate
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
