Cookies ussage consent
Our site saves small pieces of text information (cookies) on your device in order to deliver better content and for statistical purposes. You can disable the usage of cookies by changing the settings of your browser. By browsing our site without changing the browser settings you grant us permission to store that information on your device.
I agree, do not show this message again.The ratio of the contributions and activation energies to phosphorus diffusion from doubly negatively charged and triply negatively charged vacancies in germanium
A. SOUIGAT1,* , K. E. AIADI2, B. DAOUDI2
Affiliation
- Univ Ouargla , Fac. des Mathématiques et des Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes (LENREZA).Ouargla 30 000
- Univ Ouargla , Fac. des Mathématiques et des Sciences de la Matière, Lab. Développement des énergies nouvelles et renouvelables dans les zones arides et sahariennes (LENREZA).Ouargla 30 000.
Abstract
Recently germanium has emerged as a promising candidate for the development of high performance devices (CMOS) and its optoelectronic applications. Knowing the parameters of the dopant diffusion in this material is essential to perform efficient Ge-Based devices. This study determine how the temperature dependence of the ratio of the contributions to phosphorus diffusion in germanium from doubly negatively charged (2-) and triply negatively charged (3-) vacancies with activation energies 3.09 eV and 2.4 eV, respectively. In this work we modulate phosphorus diffusion in Ge by the vacancy mechanism and numerical solution of Fick’s second law, taking into account the dependence of the effective diffusion coefficient on the ratio of the contributions, and we simulate the experimental P diffusion profiles in Ge..
Keywords
Germanium, Phosphorus, Diffusion, Ratio of contributions, Vacancy mechanism, Activation energies.
Submitted at: April 5, 2015
Accepted at: June 24, 2015
Citation
A. SOUIGAT, K. E. AIADI, B. DAOUDI, The ratio of the contributions and activation energies to phosphorus diffusion from doubly negatively charged and triply negatively charged vacancies in germanium, Journal of Optoelectronics and Advanced Materials Vol. 17, Iss. 7-8, pp. 1070-1074 (2015)
- Download Fulltext
- Downloads: 382 (from 227 distinct Internet Addresses ).