JCE 2003 (80) 918 [Aug] Exactly Solvable Quantum Mechanical Potentials: An Alternative Approach


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Home > JCE Print > Journal of Chemical Education > Issues > 2003 > August >

Research: Science and Education

Exactly Solvable Quantum Mechanical Potentials: An Alternative Approach

Jeremy N. Pronchik
Merck & Company, Inc., Rahway, NJ 07065

Brian W. Williams
Department of Chemistry, Bucknell University, Lewisburg, PA 17837

August 2003
Vol. 80 No. 8
p. 918

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Abstract

An alternative method for finding exactly solvable quantum mechanical potentials is presented and discussed. As examples of this approach, the hydrogenic (Coulomb) radial potential and the anharmonic Pöschl—Teller diatomic potential are derived. The utility of the latter potential is checked by fitting it to published data for the B electronic state of diatomic iodine. This alternative means of finding exactly solvable quantum mechanical potentials should be of interest and use to physical and theoretical chemists.

More Information
Citation	Williams, Brian W.; Pronchik, Jeremy N. J. Chem. Educ. 2003 80 918.
Keywords	Iodine; Physical Chemistry; Quantum Chemistry; Theoretical Chemistry
History	Created: Last Updated:	June 30, 2003 February 28, 2005


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