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DIFFERENTIAL CROSS SECTIONS FOR ELASTIC SCATTERING OF ELECTRONS FROM MOLECULAR NITROGEN

Year 2020, Volume: 21 Issue: 4, 575 - 581, 28.12.2020
https://doi.org/10.18038/estubtda.823512

Abstract

In the field of molecular collisions, there has been a kind of rebirth with respect to the scattering of electrons both experimentally and theoretically. From experimental point of view, most data are available only in a limited energy and angular range. From theoretical side, new and different models have been developed and experimental data is needed to test these theoretical models. The basic concept in elastic scattering of electrons from atoms and molecules is the differential cross section. As a function of scattering angle and electron impact energy the cross sections can be measured and these results reveal important information about projectile, target and also about the atomic and molecular structures. In this work experimentally measured differential cross sections (DCSs) for elastic scattering of electrons by molecular nitrogen are presented.

Supporting Institution

AKÜ-BAPK

Project Number

16.KARİYER.163 , 18.KARİYER.178

Thanks

CA18212 Cost action networking.

References

  • Khandker M. H., Arony N. T., Haque A. K. F., Maaza M., Billah M., M., Uddin M. A.. Scattering of e±from N2 in the energy range 1 eV–10 keV. Molecular Physics 2020; 118(14), e1699183.
  • Itikawa Y.. Cross sections for electron collisions with nitrogen molecules. Journal of physical and chemical reference data 35.1 2006; 31-53.
  • Nickel J. C., Mott C., Kanik I. and McCollum D. C. Absolute elastic differential electron scattering cross sections for carbon monoxide and molecular nitrogen in the intermediate energy region. Journal of Physics 1988; 21, 1867-1877.
  • Lee M.T. and Iga I. Elastic and total cross sections for electron scattering by nitrogen molecule in the intermediate energy range. Journal of Physics B 1998; 32, 453-462.
  • Shyn T. W., and G. R. Carignan. Angular distribution of electrons elastically scattered from gases: 1.5-400 eV on N 2. II. Physical Review A 1980; 22.3, 923.
  • Srivastava S. K., A. Chutjian and S. Trajmar. Absolute elastic differential electron scattering cross sections in the intermediate energy region. II.—N2. The Journal of Chemical Physics 64.4 1976; 1340-1344.
  • DuBois R. D., and Rudd M. E.. Differential cross sections for elastic scattering of electrons from argon, neon, nitrogen and carbon monoxide. Journal of Physics B: Atomic and Molecular Physics 1976; 9.15, 2657.
  • Jansen R.H.J., De Heer F.J., Luyken H.J., Van Wingerden B., and Blaauw H.J., Absolute differential cross sections for elastic scattering of electrons by helium, neon, argon and molecular nitrogen. J. Phys. B: Atom. Mol. Phys. 1976; 9 (2), 185.
  • Bromberg J. P. Absolute differential cross sections of elastically scattered electrons. I. He, N2, and CO at 500 eV. The Journal of Chemical Physics 1969; 50.9, 3906-3921.
  • Ozer Z. N. Differential cross sections of nitrogen containing molecules at intermediate electron impact energy. In: AIP Conference Proceedings. AIP Publishing LLC, 2018; p. 020027.
  • Ulu M., Ozer Z. N., Yavuz M., Dogan M. Double Differential Cross Section Measurements for Electron Impact Ionization of Atmospheric Gases. In Journal of Physics: Conference Series, 2015; 635, p. 072075).
  • Gao J., Madison D. H., Peacher J. L. Interference effects for low-energy electron-impact ionization of nitrogen molecules. Physical Review A, 2005; 72(3), 032721.
  • Hargreaves L. R., Colyer C., Stevenson M. A., Lohmann B., Al-Hagan O., Madison D. H., Ning C.G. (e,2e) study of two-center interference effects in the ionization of N 2. Physical Review A, 2009; 80(6), 062704.
  • Milne-Brownlie D. S., FosterM., Gao J., Lohmann B., Madison D. H. Young-Type Interference in (e, 2e) Ionization of H2. Physical review letters, 2006; 96(23), 233201.
  • Naja A., Staicu-Casagrande, E. M. Lahmam-BennaniA., Nekkab M., Mezdari F., JoulakianB., Chuluunbaatar O., Madison, D. H. Triply differential (e, 2e) cross sections for ionization of the nitrogen molecule at large energy transfer. Journal Of Physics B 2007; 40, 3775-3783.
  • Lahmam-Bennani A., Staicu Casagrande E. M. and Naja A. Experimental investigation of the triple differential cross section for electron impact ionization of N2 and CO2 molecules at intermediate impact energy and large ion recoil momentum. Journal of Physics B 2009; 43, 235205.
  • Toth I. and Nagy L. Ionization of molecular nitrogen by electron impact in (e,2e) processes. Journal of Physics B 2011; 44, 195205.
  • Chaluvadi H., Ozer Z. N., Dogan M., Ning C., Colgan J., Madison, D. Observation of two-center interference effects for electron impact ionization of N2. Journal of Physics B: Atomic, Molecular and Optical Physics 2015; 48(15), 155203.
  • Roychowdhury M., Chauhan D., Limbachiya C., Tokesi K., Champion C., Weck P. F., Tribedi, L. C. Double differential distributions of e-emission in ionization of N2 by 3, 4 and 5 keV electron impact. Journal of Physics B: Atomic, Molecular and Optical Physics 2020; 1-10.
  • Ozer Z. N., Chaluvadi H., Ulu, M. Dogan, M., Aktas B., Madison D. Young's double-slit interference for quantum particles. Physical Review A, 2013; 87(4), 042704.
  • Dogan M., Ulu M., Ozer Z.N., Yavuz M., Bozkurt G. Double differential cross-sections for electron impact ionization of atoms and molecules. Journal of Spectroscopy, 2013;192917.
Year 2020, Volume: 21 Issue: 4, 575 - 581, 28.12.2020
https://doi.org/10.18038/estubtda.823512

Abstract

Project Number

16.KARİYER.163 , 18.KARİYER.178

References

  • Khandker M. H., Arony N. T., Haque A. K. F., Maaza M., Billah M., M., Uddin M. A.. Scattering of e±from N2 in the energy range 1 eV–10 keV. Molecular Physics 2020; 118(14), e1699183.
  • Itikawa Y.. Cross sections for electron collisions with nitrogen molecules. Journal of physical and chemical reference data 35.1 2006; 31-53.
  • Nickel J. C., Mott C., Kanik I. and McCollum D. C. Absolute elastic differential electron scattering cross sections for carbon monoxide and molecular nitrogen in the intermediate energy region. Journal of Physics 1988; 21, 1867-1877.
  • Lee M.T. and Iga I. Elastic and total cross sections for electron scattering by nitrogen molecule in the intermediate energy range. Journal of Physics B 1998; 32, 453-462.
  • Shyn T. W., and G. R. Carignan. Angular distribution of electrons elastically scattered from gases: 1.5-400 eV on N 2. II. Physical Review A 1980; 22.3, 923.
  • Srivastava S. K., A. Chutjian and S. Trajmar. Absolute elastic differential electron scattering cross sections in the intermediate energy region. II.—N2. The Journal of Chemical Physics 64.4 1976; 1340-1344.
  • DuBois R. D., and Rudd M. E.. Differential cross sections for elastic scattering of electrons from argon, neon, nitrogen and carbon monoxide. Journal of Physics B: Atomic and Molecular Physics 1976; 9.15, 2657.
  • Jansen R.H.J., De Heer F.J., Luyken H.J., Van Wingerden B., and Blaauw H.J., Absolute differential cross sections for elastic scattering of electrons by helium, neon, argon and molecular nitrogen. J. Phys. B: Atom. Mol. Phys. 1976; 9 (2), 185.
  • Bromberg J. P. Absolute differential cross sections of elastically scattered electrons. I. He, N2, and CO at 500 eV. The Journal of Chemical Physics 1969; 50.9, 3906-3921.
  • Ozer Z. N. Differential cross sections of nitrogen containing molecules at intermediate electron impact energy. In: AIP Conference Proceedings. AIP Publishing LLC, 2018; p. 020027.
  • Ulu M., Ozer Z. N., Yavuz M., Dogan M. Double Differential Cross Section Measurements for Electron Impact Ionization of Atmospheric Gases. In Journal of Physics: Conference Series, 2015; 635, p. 072075).
  • Gao J., Madison D. H., Peacher J. L. Interference effects for low-energy electron-impact ionization of nitrogen molecules. Physical Review A, 2005; 72(3), 032721.
  • Hargreaves L. R., Colyer C., Stevenson M. A., Lohmann B., Al-Hagan O., Madison D. H., Ning C.G. (e,2e) study of two-center interference effects in the ionization of N 2. Physical Review A, 2009; 80(6), 062704.
  • Milne-Brownlie D. S., FosterM., Gao J., Lohmann B., Madison D. H. Young-Type Interference in (e, 2e) Ionization of H2. Physical review letters, 2006; 96(23), 233201.
  • Naja A., Staicu-Casagrande, E. M. Lahmam-BennaniA., Nekkab M., Mezdari F., JoulakianB., Chuluunbaatar O., Madison, D. H. Triply differential (e, 2e) cross sections for ionization of the nitrogen molecule at large energy transfer. Journal Of Physics B 2007; 40, 3775-3783.
  • Lahmam-Bennani A., Staicu Casagrande E. M. and Naja A. Experimental investigation of the triple differential cross section for electron impact ionization of N2 and CO2 molecules at intermediate impact energy and large ion recoil momentum. Journal of Physics B 2009; 43, 235205.
  • Toth I. and Nagy L. Ionization of molecular nitrogen by electron impact in (e,2e) processes. Journal of Physics B 2011; 44, 195205.
  • Chaluvadi H., Ozer Z. N., Dogan M., Ning C., Colgan J., Madison, D. Observation of two-center interference effects for electron impact ionization of N2. Journal of Physics B: Atomic, Molecular and Optical Physics 2015; 48(15), 155203.
  • Roychowdhury M., Chauhan D., Limbachiya C., Tokesi K., Champion C., Weck P. F., Tribedi, L. C. Double differential distributions of e-emission in ionization of N2 by 3, 4 and 5 keV electron impact. Journal of Physics B: Atomic, Molecular and Optical Physics 2020; 1-10.
  • Ozer Z. N., Chaluvadi H., Ulu, M. Dogan, M., Aktas B., Madison D. Young's double-slit interference for quantum particles. Physical Review A, 2013; 87(4), 042704.
  • Dogan M., Ulu M., Ozer Z.N., Yavuz M., Bozkurt G. Double differential cross-sections for electron impact ionization of atoms and molecules. Journal of Spectroscopy, 2013;192917.
There are 21 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Zehra Nur Özer 0000-0002-5887-4486

Project Number 16.KARİYER.163 , 18.KARİYER.178
Publication Date December 28, 2020
Published in Issue Year 2020 Volume: 21 Issue: 4

Cite

AMA Özer ZN. DIFFERENTIAL CROSS SECTIONS FOR ELASTIC SCATTERING OF ELECTRONS FROM MOLECULAR NITROGEN. Estuscience - Se. December 2020;21(4):575-581. doi:10.18038/estubtda.823512