TY - JOUR
AU - 
AB - Vol. 3, No 2, December 2020, pp. 66–73 Indonesian Review of Physics (IRiP) DOI: 10.12928/irip.v3i2.3066 Chilwatun Nasiroh*, Bambang Supriadi, and Rif’ati Dina Handayani Physics Education Department, University of Jember Jl. Kalimantan No.37, Krajan Timur, Sumbersari, Jember, Indonesia *Email: chilwatunnasiroh25@gmail.com Article Info ABSTRACT Semiconductor materials can be used as potential barriers to Tunnelling effects. In Article History this study, four semiconductor materials are arranged in various ways to form a Received Nov 5, 2020 quadruple potential structure to analyze the value of the transmission coefficient. The Accepted Nov 28, 2020 analysis was conducted using the analytical and numerical matrix propagation method Published Dec 31, 2020 using Matlab2018a. The results confirmed that the inverted arrangement produces the same transmission coefficient value for each energy. So that there are 12 kinds of Keywords: transmission coefficient values generated from 24 arrangements. The semiconductor Transmission coefficient material composition with the most considerable transmission coefficient value is Tunneling effect ADCB and BCDA, which have a value of 0.8087. The variation of the arrangement Semiconductor affects the value of the transmission coefficient so that it can be used as a guideline for selecting the arrangement that produces the most optimum value of the transmission coefficient from 
TI - Tunnelling Effect for Quadruples Potential Using Matrix Propagation Method
JF - Indonesian Review of Physics
DO - 10.12928/irip.v3i2.3066
DA - 2020-12-31
UR - https://www.deepdyve.com/lp/unpaywall/tunnelling-effect-for-quadruples-potential-using-matrix-propagation-kPSCWi5F2q
DP - DeepDyve
ER -