PERHITUNGAN TAMPANG LINTANG DIFERENSIAL HAMBURAN ELASTIK ELEKTRON-ARGON PADA 10,4 EV DENGAN ANALISIS GELOMBANG PARSIAL
Keywords: Elastic scattering, elastic, Schrödinger equation, phase shift, cross-section, partial wave methods
Abstract
It has been calculated theoretically using the partial wave methods for the elastic scattering differential cross-section of electron-argon at 10.4 eV. The wave function from Schrodinger equation was computed by the Numerov integration methods. For simplicity of scattering system , the Gaussian potential form has been employed. For comparison between theoretical and experimental approach then we used the test. The for this research is 2.386 that shows this calculation is good.
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References
Vuskovic, L. dan M.V. Kurepa (1976). “Differential Cross Section of 60-150 eV Electron Elastically scattered in Argon “. Dalam Journal of Physics B: Atomic, Molecular, and Optical Physics. p. 837-842. (April, 9).
William, J. F dan B. A. Willis (1975). †The Scattering of Electron from Inert Gases. I. Absolute differential Elastic Cross Section for Argon Atomsâ€. Dalam Journal of Physics B: Atomic, Molecular, and Optical Physics. (July, 8).
R Panajotoviĉ et al (1997). “Critical Minima in Elastic Electron Sacttering by Argonâ€. Dalam Jounal of Physics B : Atomic, Molecular and Optical physics. (September, 30). Printed in the UK.
DuBois, R. D dan M. E. Rudd (1975). “ Absolute Differential Cross Section for 20-800 eV Electrons Elastically Scattered from Argonâ€. Dalam Journal of Physics B: Atomic and MolecularPhysics.
Koonin, S. E. and D. C. Meredith. 1990. Computational Physics Fortran Version. Canada : Addison-Wesley Publishing Company.
Thankkapan, V.K. 1985. Quantum Mechanics. India: Wiley Eastern Limited. Chap.7.
Bevington, P. R. 1969. Data Reduction and Error Analysis for The Physical Sciences. NY: McGraw-Hill Book Company.
McCarthy, I. E. 1968. Introduction to Nuclear Theory. NY & London: John Wiley & Sons, Inc.
http://electron6.phys.utk.edu/qm2/numerical/program3.htm
http://electron6.phys.utk.edu/qm2/numerical/crossar.txt
http://electron6.phys.utk.edu/qm2/numerical/program_4.htm
William, J. F dan B. A. Willis (1975). †The Scattering of Electron from Inert Gases. I. Absolute differential Elastic Cross Section for Argon Atomsâ€. Dalam Journal of Physics B: Atomic, Molecular, and Optical Physics. (July, 8).
R Panajotoviĉ et al (1997). “Critical Minima in Elastic Electron Sacttering by Argonâ€. Dalam Jounal of Physics B : Atomic, Molecular and Optical physics. (September, 30). Printed in the UK.
DuBois, R. D dan M. E. Rudd (1975). “ Absolute Differential Cross Section for 20-800 eV Electrons Elastically Scattered from Argonâ€. Dalam Journal of Physics B: Atomic and MolecularPhysics.
Koonin, S. E. and D. C. Meredith. 1990. Computational Physics Fortran Version. Canada : Addison-Wesley Publishing Company.
Thankkapan, V.K. 1985. Quantum Mechanics. India: Wiley Eastern Limited. Chap.7.
Bevington, P. R. 1969. Data Reduction and Error Analysis for The Physical Sciences. NY: McGraw-Hill Book Company.
McCarthy, I. E. 1968. Introduction to Nuclear Theory. NY & London: John Wiley & Sons, Inc.
http://electron6.phys.utk.edu/qm2/numerical/program3.htm
http://electron6.phys.utk.edu/qm2/numerical/crossar.txt
http://electron6.phys.utk.edu/qm2/numerical/program_4.htm
How to Cite
Settings Paken Pandiangan, & Suhartono. (2004). PERHITUNGAN TAMPANG LINTANG DIFERENSIAL HAMBURAN ELASTIK ELEKTRON-ARGON PADA 10,4 EV DENGAN ANALISIS GELOMBANG PARSIAL. Jurnal Matematika Sains Dan Teknologi, 5(2), 125–131. Retrieved from http://jurnal.ut.ac.id/index.php/jmst/article/view/667
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