Elastic scattering of electrons by polyatomic molecules in the energy range 300-1300 eV: CO, , , H and

Maji, Somnath; Basavaraju, G.; Bharathi, S.M.; Bhushan, K. G.; Khare, S. P.

doi:10.1088/0953-4075/31/22/009

Cited by 15 publications

(33 citation statements)

References 23 publications

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“…For comparison, the experimental data of [47] are normalized with those of [49] in Figure 1 at 90 • . Additionally included are the theoretical results predicted by the Schwinger variational iterative method (SVIM) of Iga et al [45] at 100, 200, 300, and 400 eV and the IAM approach of Maji et al [51] at 500, 700, and 900 eV. We found no experimental or any other theoretical results with which to compare our calculations for the energy domain of 1500 eV ≤ E i ≤ 10,000 eV.…”

Section: The Differential Cross-sectionmentioning

confidence: 83%

“…The IAMS theory, on the other hand, produces only one minimum up to E i = 200 eV, and beyond that, the DCS shows smooth variation with the energy. In Figures 1-4, our DCS results for the electron projectiles are compared with the experimental data from Tanaka et al [46] that are available at E i = 60-100 eV, as well as those of Shyn et al [47] at E i = 40-90 eV, Register et al [48] at 50 eV, Kanik et al [49] at E i = 40-100 eV, Iga et al [45] at 100, 200, 300, and 400 eV, Bromberg [50] at 300, 400, and 500 eV, Maji et al [51] at 500, 700, and 900 eV, and Iga et al [52] at 500, 800, and 1000 eV. For comparison, the experimental data of [47] are normalized with those of [49] in Figure 1 at 90 • .…”

Section: The Differential Cross-sectionmentioning

confidence: 84%

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A Theoretical Study of Scattering of Electrons and Positrons by CO2 Molecule

Billah

Khatun

Haque

et al. 2022

Atoms

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This article presents a theoretical investigation of the differential, integrated, elastic, inelastic, total, momentum-transfer, and viscosity cross-sections, along with the total ionization cross-section, for elastically scattered electrons and positrons from a carbon dioxide (CO2) molecule in the incident energy range of 1 eV ≤Ei≤ 1 MeV. In addition, for the first time, we report the spin polarization of e±−CO2 scattering systems. The independent atom model (IAM) with screening correction (IAMS) using a complex optical potential was employed to solve the Dirac relativistic equation in partial-wave analysis. The comparison of our results with the available experimental data and other theoretical predictions shows a reasonable agreement in the intermediate- and high-energy regions.

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Section: The Differential Cross-sectionmentioning

confidence: 83%

Section: The Differential Cross-sectionmentioning

confidence: 84%

A Theoretical Study of Scattering of Electrons and Positrons by CO2 Molecule

Billah

Khatun

Haque

et al. 2022

Atoms

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“…Their electron beam was produced as secondary electrons from the moderator with the energy spread of several electronvolts. Maji et al [61] measured elastic DCSs for a number of carbon-containing molecules at the high-energy region from 300 to 1300 eV by the crossed-beam technique. They wanted to test the validity of the independent atom model for polyatomic molecules.…”

Section: Elastic Electron Scattering By Methane Molecule-modern Expermentioning

confidence: 99%

“…The measurements of DCS were carried out with an energy resolution of about 1 eV and by using the relative flow method at 30 • where the overall uncertainty was 15%. Basavaraju et al [62] gave tabulated values for measured DCSs in [61] and obtained a scaled DCSs regarded as a universal function of a scaled momentum transfer for a number molecular targets.…”

Section: Elastic Electron Scattering By Methane Molecule-modern Expermentioning

confidence: 99%

BEAMDB and MOLD—Databases at the Serbian Virtual Observatory for Collisional and Radiative Processes

Marinković

Srećković

Vujčić

et al. 2019

Atoms

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In this contribution we present a progress report on two atomic and molecular databases, BEAMDB and MolD, which are web services at the Serbian virtual observatory (SerVO) and nodes within the Virtual Atomic and Molecular Data Center (VAMDC). The Belgrade Electron/Atom (Molecule) DataBase (BEAMDB) provides collisional data for electron interactions with atoms and molecules. The Photodissociation (MolD) database contains photo-dissociation cross sections for individual rovibrational states of diatomic molecular ions and rate coefficients for the chemi-ionisation/recombination processes. We also present a progress report on the major upgrade of these databases and plans for the future. As an example of how the data from the BEAMDB may be used, a review of electron scattering from methane is described.

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“…Recent work on elastic collisions between electrons and molecules include H 2 and N 2 (Isaacs & Morrison 1996), NO (Da Paixao et al 1996), C 0 2 (Gianturco k Stoecklin 1996), CO , C 0 2 (Takekawa k Itikawa 1996), 0 2 (Green et al 1997), H 2 0 (Gianturco et al 1998a), 0 3 ), C 0 2 (Tanaka et al 1998), CO, N 2 , NO, and 0 2 (Liu k Sun 1996), and CO, C0 2 , CH 4 , C 2 H 4 , and C 2 H 6 (Maji et al 1998). …”

Section: Electron Impact Of Moleculesmentioning

confidence: 99%

Commission 14: Atomic and Molecular Data: (Donnees Atomiques et Moleculaires)

Rostas¹,

Smith²,

Berrington³

et al. 2000

Trans. Int. Astron. Union

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In recognition of its special interdisciplinary character, IAU Commission 14 is linked directly to the Executive Committee. The Commission’s role is to inform the astronomical community of new developments in the diverse fields of research which involve atoms and molecules. Conversely it endeavors to sensitize the research community active in those fields to the specific needs of astronomy, especially concerning basic data and modeling tools. More generally, Commission 14 tries to foster long term relations and collaborations between the two communities and, when necessary, to alert funding authorities to the specific needs of ground and space based astronomy for specific atomic and molecular data. This report is one of the main contributions of Commission 14 to the information of the astronomical community. Several meetings concerned, at least in part, with the need and availability of atomic and molecular data for astrophysics were also sponsored or co-sponsored. In the last triennium, Commission 14 cosponsored IAU Symposium 194 “Astrochemistry: From Molecular Cloud to Planetary Systems” held in Sogwipo (Korea) from Aug. 23 to 27, 1999 and organized by Commission 34. A Joint Discussion: JD1 on “Atomic and Molecular Data for Astrophysics, New Developments, Case Studies and Future Needs” has been planned for the XXIVth IAU General Assembly in Manchester (Aug. 7-19, 2000) and cosponsored by Commissions 15, 16, 29, 34, 36, 40 and 44. Several other Joint Discussions to be held at the Manchester General Assembly are co-sponsored by this commission.

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Elastic scattering of electrons by polyatomic molecules in the energy range 300-1300 eV: CO, , , H and

Cited by 15 publications

References 23 publications

A Theoretical Study of Scattering of Electrons and Positrons by CO2 Molecule

A Theoretical Study of Scattering of Electrons and Positrons by CO2 Molecule

BEAMDB and MOLD—Databases at the Serbian Virtual Observatory for Collisional and Radiative Processes

Commission 14: Atomic and Molecular Data: (Donnees Atomiques et Moleculaires)

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