A theory is developed for the interaction of an electromagnetic field with one-particle quantum-confined states of positron and electron in spherical nanovoids of metals and semiconductors. In the framework of dipole approximation it is shown that the oscillator forces and dipole moments for the transitions involving one-particle states in nanovoids are rather large, exceeding the corresponding typical parameters of bulk metal and semiconductor materials. It is established that giant optical absorption cross sections in the quasi-zero-dimensional systems to enable to use these nanosystems as new efficient absorbing nanomaterials for infra-red radiation.
| Published in | Optics (Volume 2, Issue 4) |
| DOI | 10.11648/j.optics.20130204.11 |
| Page(s) | 47-50 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2013. Published by Science Publishing Group |
Coulomb States, Positron and Electron States, Forces of Oscillators, Dipole Moments, Nanovoids, Absorption of Light
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APA Style
Sergey I. Pokutnyi, Petro P. Gorbyk. (2013). Absorption of Light in Positron and Electron States in Quasi-Zero-Dimensional Nanosystems. Optics, 2(4), 47-50. https://doi.org/10.11648/j.optics.20130204.11
ACS Style
Sergey I. Pokutnyi; Petro P. Gorbyk. Absorption of Light in Positron and Electron States in Quasi-Zero-Dimensional Nanosystems. Optics. 2013, 2(4), 47-50. doi: 10.11648/j.optics.20130204.11
AMA Style
Sergey I. Pokutnyi, Petro P. Gorbyk. Absorption of Light in Positron and Electron States in Quasi-Zero-Dimensional Nanosystems. Optics. 2013;2(4):47-50. doi: 10.11648/j.optics.20130204.11
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Download@article{10.11648/j.optics.20130204.11,
author = {Sergey I. Pokutnyi and Petro P. Gorbyk},
title = {Absorption of Light in Positron and Electron States in Quasi-Zero-Dimensional Nanosystems},
journal = {Optics},
volume = {2},
number = {4},
pages = {47-50},
doi = {10.11648/j.optics.20130204.11},
url = {https://doi.org/10.11648/j.optics.20130204.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.optics.20130204.11},
abstract = {A theory is developed for the interaction of an electromagnetic field with one-particle quantum-confined states of positron and electron in spherical nanovoids of metals and semiconductors. In the framework of dipole approximation it is shown that the oscillator forces and dipole moments for the transitions involving one-particle states in nanovoids are rather large, exceeding the corresponding typical parameters of bulk metal and semiconductor materials. It is established that giant optical absorption cross sections in the quasi-zero-dimensional systems to enable to use these nanosystems as new efficient absorbing nanomaterials for infra-red radiation.},
year = {2013}
}
TY - JOUR T1 - Absorption of Light in Positron and Electron States in Quasi-Zero-Dimensional Nanosystems AU - Sergey I. Pokutnyi AU - Petro P. Gorbyk Y1 - 2013/08/30 PY - 2013 N1 - https://doi.org/10.11648/j.optics.20130204.11 DO - 10.11648/j.optics.20130204.11 T2 - Optics JF - Optics JO - Optics SP - 47 EP - 50 PB - Science Publishing Group SN - 2328-7810 UR - https://doi.org/10.11648/j.optics.20130204.11 AB - A theory is developed for the interaction of an electromagnetic field with one-particle quantum-confined states of positron and electron in spherical nanovoids of metals and semiconductors. In the framework of dipole approximation it is shown that the oscillator forces and dipole moments for the transitions involving one-particle states in nanovoids are rather large, exceeding the corresponding typical parameters of bulk metal and semiconductor materials. It is established that giant optical absorption cross sections in the quasi-zero-dimensional systems to enable to use these nanosystems as new efficient absorbing nanomaterials for infra-red radiation. VL - 2 IS - 4 ER -
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