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Supersymmetry And The Tunneling Problem In An Asymmetric Double Well, Asim Gangopadhyaya, Prasanta Panigrahi, Uday Sukhatne
Supersymmetry And The Tunneling Problem In An Asymmetric Double Well, Asim Gangopadhyaya, Prasanta Panigrahi, Uday Sukhatne
Asim Gangopadhyaya
The techniques of supersymmetric quantum mechanics are applied to the calculation of the energy difference between the ground state and the first excited state of an asymmetric double well. This splitting, originating from the tunneling effect, is computed via a systematic, rapidly converging perturbation expansion. Perturbative calculations to any order can be easily carried out using a logarithmic perturbation theory. Our approach yield substantially better results than alternative widely used semiclassical analyses.
Fostering Preservice Teachers' "Nature Of Science" Understandings In A Physics Course, Ehsan Kattoula, Geeta Verma, Lisa Martin-Hansen
Fostering Preservice Teachers' "Nature Of Science" Understandings In A Physics Course, Ehsan Kattoula, Geeta Verma, Lisa Martin-Hansen
Geeta Verma
In this paper, the authors examine an algebra-based physics course designed for preservice teachers and explore how the course integrated two pedagogical strategies to bridge the gap between inquiry-learning experiences and the teachers' nature of science (NOS) understandings. The results of this research show that the explicit, reflective process allowed participants to examine their NOS understandings, which thereby fostered changes in their understanding.
Improving The Selective Cancer Killing Ability Of Zno Nanoparticles Using Fe Doping, Aaron Thurber, Denise Wingett, John Rasmussen, Janet Layne, Lydia Johnson, Dmitri Tenne, Jianhui Zhang, Charles Hanna, Alex Punnoose
Improving The Selective Cancer Killing Ability Of Zno Nanoparticles Using Fe Doping, Aaron Thurber, Denise Wingett, John Rasmussen, Janet Layne, Lydia Johnson, Dmitri Tenne, Jianhui Zhang, Charles Hanna, Alex Punnoose
Lydia Johnson
This work reports a new method to improve our recent demonstration of zinc oxide (ZnO) nanoparticles (NPs) selectively killing certain human cancer cells, achieved by incorporating Fe ions into the NPs. Thoroughly characterized cationic ZnO NPs (∼6 nm) doped with Fe ions (Zn(1-x )Fe (x) O, x = 0-0.15) were used in this work, applied at a concentration of 24 μg/ml. Cytotoxicity studies using flow cytometry on Jurkat leukemic cancer cells show cell viability drops from about 43% for undoped ZnO NPs to 15% for ZnO NPs doped with 7.5% Fe. However, the trend reverses and cell viability increases with …