Research Article
Year 2017,
Volume: 43 Issue: 2, 129 - 137, 31.10.2017
Abstract
Bu çalışmada bir kez
iyonlaşmış Neon (Ne II)’un 3s-3p seviyeleri arasındaki elektrik dipol geçiş
olasılıkları, en zayıf bağlı elektron potansiyel model (WBEPM) teori
kullanılarak hesaplanmıştır. Elde edilen geçiş olasılıkları literatürde verilen
teorik ve deneysel sonuçlarla karşılaştırılmıştır.
References
- Ateş Ş, Çelik G (2009) Oscillator Strengths for Allowed Transitions in Li II Acta Phys. Pol. A, 116, 169-175.
- Ateş Ş, Çelik G, Tekeli G, Taşer M (2012) Oscillator strengths of allowed transitions for O III, Atomic Data and Nuclear Data Tables 98, 1–18.
- Ateş Ş, Gökçe Y, Çelik G, Yıldız M (2014) Oscillator strengths and transition probabilities for singly ionized terbium, Can. J. Phys. 92,1043-1046.
- Ateş Ş, Tekeli G, Çelik G, Akın E, Taşer M (2009) Oscillator strengths for singly ionized oxygen, Eur. J. Phys. D 54, 21-24.
- Blackford HMS, Hibbert A (1994) Transitions in fluorine-like ions At. Data Nucl. Data Tables 58,101-164.
- Cowan, RD (1981) The Theory of Atomic Structure and Spectra University of California Press
- Çelik G, Ateş Ş (2007) The calculation of transition probabilities for atomic oxygen, Eur. J. Phys. D 44, 433-437.
- Çelik G, Ateş Ş (2008) The theoretical calculations of transition probabilities for individual and multiplet lines between some excited levels of atomic potassium, Can J Phys 86,487-494.
- Çelik G, Ateş Ş (2016) E1 and E2 transitions for Fe XVI, Co XVII and Ni XVIII Astrophys Space Sci.361, 1-9.
- Çelik G, Ateş Ş, Erol, E (2015) Oscillator strengths and lifetimes for Cu I, Can. J. Phys. 93,1015-1023.
- Çelik G, Ateş Ş, Özarslan S, Taşer M (2011) Transition probabilities, oscillator strengths and lifetimes for singly ionized magnesium. J. Quant. Spectr. Rad. Trans.112, 2330-2334.
- Çelik G, Ateş Ş, Tekeli, G (2016) Electric dipole transition probabilities, oscillator strengths and lifetimes for Co16+, Can. J. Phys. 94,23-25
- Fischer CF, He X (1999) Transition energies and transition rates for the 2p(4)(P-3)3p-2p(4)(P-3)3d transitions in Ne II Can. J. Phys. 77, 177-195
- Fischer CF, Tachiev G (2004) Breit-Pauli energy levels, lifetimes, and transition probabilities for the beryllium-like to neon-like sequences At. Data Nucl. Data Tables 87,1-184
- Gaigalas, G, Froese Fischer, C (1996) Extension of the HF program to partially filled f-subshells, Comput. Phys. Commun. 98, 255-264.
- Garstang RH (1954) Intermediate Coupling Line Strengths Mon.Not.R. Astron. Soc. 114,118-133.
- Hodges D, Marantz H, Tang CL (1970) Line Strengths and Radiative Lifetimes for Ne II
- J.Opt.Soc. Am. A 60,192-199.
- Kramida A, Ralchenko Y, Reader J, and NIST ASD Team (2015), NIST Atomic Spectra Database (version 5.3) [online]. Available: http://physics.nist.gov/asd National Institute of Standards and Technology, Gaithersburg, MD
- Lindgard A, Nielsen, SE (1975) Numerical approach to transition probabilities in the coulomb approximation: Be N I and Mg II Rydberg series, J. Phys. B 8, 1183-1199.
- Ralchenko Y, Kramida AE, Reader J, and NIST ASD Team (2015), NIST Atomic Spectra Database (version 4.0.1) [online]. Available: http://physics.nist.gov/asd National Institute of Standards and Technology, Gaithersburg, MD
- Santos JP, Costa AM, Madruga C, Parente F, Indelicato, P (2011) Relativistic transition wavelenghts and probabilities for spectral lines of Ne II Eur. Phys. J. D 63, 89-86
- Trimble V (1991) The origin and abundances of the chemical elements revisited Astron. Astrophs. Rev.3,1-46.
- Zheng NW, Wang T, Yang RY, Wu YG (2000) Theoretical calculation of transition probability for N atom and ions, J. Chem. Phys. 112, 7042-7056.
- Zheng NW, Wang T, Zhou T, Ma D X (2002) Theoretical study of transition probability for oxygen atom and ions, J. Phys. Soc. of Japan 71, 1672-1675.
- Zheng NW, Wang T, Ma DX, Zhou T, Fan J (2004) Weakest bound electron potential model theory, Int. J. Quant. Chem. 98, 281-290.
Year 2017,
Volume: 43 Issue: 2, 129 - 137, 31.10.2017
Abstract
In this study, the electric
dipole transition probabilities between 3s-3p levels of singly ionized neon
have been calculated using the weakest bound electron potential model (WBEPM)
theory. The obtained transition probabilities have been compared to theoretical
and experimental results in given literature.
References
- Ateş Ş, Çelik G (2009) Oscillator Strengths for Allowed Transitions in Li II Acta Phys. Pol. A, 116, 169-175.
- Ateş Ş, Çelik G, Tekeli G, Taşer M (2012) Oscillator strengths of allowed transitions for O III, Atomic Data and Nuclear Data Tables 98, 1–18.
- Ateş Ş, Gökçe Y, Çelik G, Yıldız M (2014) Oscillator strengths and transition probabilities for singly ionized terbium, Can. J. Phys. 92,1043-1046.
- Ateş Ş, Tekeli G, Çelik G, Akın E, Taşer M (2009) Oscillator strengths for singly ionized oxygen, Eur. J. Phys. D 54, 21-24.
- Blackford HMS, Hibbert A (1994) Transitions in fluorine-like ions At. Data Nucl. Data Tables 58,101-164.
- Cowan, RD (1981) The Theory of Atomic Structure and Spectra University of California Press
- Çelik G, Ateş Ş (2007) The calculation of transition probabilities for atomic oxygen, Eur. J. Phys. D 44, 433-437.
- Çelik G, Ateş Ş (2008) The theoretical calculations of transition probabilities for individual and multiplet lines between some excited levels of atomic potassium, Can J Phys 86,487-494.
- Çelik G, Ateş Ş (2016) E1 and E2 transitions for Fe XVI, Co XVII and Ni XVIII Astrophys Space Sci.361, 1-9.
- Çelik G, Ateş Ş, Erol, E (2015) Oscillator strengths and lifetimes for Cu I, Can. J. Phys. 93,1015-1023.
- Çelik G, Ateş Ş, Özarslan S, Taşer M (2011) Transition probabilities, oscillator strengths and lifetimes for singly ionized magnesium. J. Quant. Spectr. Rad. Trans.112, 2330-2334.
- Çelik G, Ateş Ş, Tekeli, G (2016) Electric dipole transition probabilities, oscillator strengths and lifetimes for Co16+, Can. J. Phys. 94,23-25
- Fischer CF, He X (1999) Transition energies and transition rates for the 2p(4)(P-3)3p-2p(4)(P-3)3d transitions in Ne II Can. J. Phys. 77, 177-195
- Fischer CF, Tachiev G (2004) Breit-Pauli energy levels, lifetimes, and transition probabilities for the beryllium-like to neon-like sequences At. Data Nucl. Data Tables 87,1-184
- Gaigalas, G, Froese Fischer, C (1996) Extension of the HF program to partially filled f-subshells, Comput. Phys. Commun. 98, 255-264.
- Garstang RH (1954) Intermediate Coupling Line Strengths Mon.Not.R. Astron. Soc. 114,118-133.
- Hodges D, Marantz H, Tang CL (1970) Line Strengths and Radiative Lifetimes for Ne II
- J.Opt.Soc. Am. A 60,192-199.
- Kramida A, Ralchenko Y, Reader J, and NIST ASD Team (2015), NIST Atomic Spectra Database (version 5.3) [online]. Available: http://physics.nist.gov/asd National Institute of Standards and Technology, Gaithersburg, MD
- Lindgard A, Nielsen, SE (1975) Numerical approach to transition probabilities in the coulomb approximation: Be N I and Mg II Rydberg series, J. Phys. B 8, 1183-1199.
- Ralchenko Y, Kramida AE, Reader J, and NIST ASD Team (2015), NIST Atomic Spectra Database (version 4.0.1) [online]. Available: http://physics.nist.gov/asd National Institute of Standards and Technology, Gaithersburg, MD
- Santos JP, Costa AM, Madruga C, Parente F, Indelicato, P (2011) Relativistic transition wavelenghts and probabilities for spectral lines of Ne II Eur. Phys. J. D 63, 89-86
- Trimble V (1991) The origin and abundances of the chemical elements revisited Astron. Astrophs. Rev.3,1-46.
- Zheng NW, Wang T, Yang RY, Wu YG (2000) Theoretical calculation of transition probability for N atom and ions, J. Chem. Phys. 112, 7042-7056.
- Zheng NW, Wang T, Zhou T, Ma D X (2002) Theoretical study of transition probability for oxygen atom and ions, J. Phys. Soc. of Japan 71, 1672-1675.
- Zheng NW, Wang T, Ma DX, Zhou T, Fan J (2004) Weakest bound electron potential model theory, Int. J. Quant. Chem. 98, 281-290.
There are 26 citations in total.
Details
| Journal Section | Research Articles |
|---|---|
| Authors | |
| Publication Date | October 31, 2017 |
| Submission Date | March 13, 2017 |
| Published in Issue | Year 2017 Volume: 43 Issue: 2 |
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