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1

Cross-Sections and Transport Properties of F^{-} Ions in F_2

100%

Stojanović V., Nikitović Ž., Jovanović J., Raspopović Z.

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vol. 125

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issue 1

46-48

EN

We present the new results for the simple scattering cross-section set and proposed transport coefficients for F^{-} ions in F_2 that can be used in such models. Nanbu's theory based on thermodynamic threshold energies and separating elastic and reactive collisions is used to calculate cross-sections for binary collisions of ions with atoms and molecules. Direct MC method is applied to obtain swarm parameters at temperature of T = 300 K.

2

Transport Parameters of F^- Ions in BF_3

100%

Nikitović Ž., Stojanović V., Raspopović Z., Jovanović J.

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vol. 126

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issue 3

724-727

EN

In this work we presented the new results for energy dependent cross-sections and transport coefficients as a function of E/N for F^- ions in BF_3 gas. Results were obtained by using the Monte Carlo technique for cross-section set determined on the basis of the Nanbu theory. Monte Carlo method is applied to obtain swarm parameters at temperature of T=300 K.

3

Cross-Section and Transport Parameters of Ne⁺ in CF₄

100%

Nikitović Ž., Stojanović V., Raspopović Z.

Acta Physica Polonica A

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2016

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vol. 130

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issue 6

1343-1345

EN

A cross-section set for scattering Ne⁺ ions in CF₄ is assessed by using available experimental data for charge transfer cross-sections. In this paper we present new results for the mean energy, reduced mobility and diffusion coefficients for low and moderate reduced electric fields E/N (N - gas density) and account for the non-conservative collisions. The Monte Carlo method is used to calculate transport properties of Ne⁺ ions in CF₄ at temperature of T=300 K.

4

Rate Coefficients of F^{-} Ions in Ar/BF_{3} Mixtures

100%

Nikitović Ž., Stojanović V., Raspopović Z.

Acta Physica Polonica A

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2015

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vol. 127

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issue 6

1634-1636

EN

Transport parameters of F^{-} ions in mixtures Ar/BF_{3} in DC fields were calculated using Monte Carlo simulation technique assuming the scattering cross-section set assembled on the basis of Nanbu's technique separating elastic from reactive collisions. In this work we present characteristic energy and rate coefficients for low and moderate reduced electric fields E/N (N - gas density) and account for the non-conservative collisions.

5

H⁺ Scattering in n-Butanol

100%

Nikitović Ž., Raspopović Z., Stojanović V.

Acta Physica Polonica A

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2017

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vol. 132

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issue 4

1420-1423

EN

In this paper we show predictions for the low energy cross-sections and transport properties for the H⁺ in n-butanol gas. These data are needed for modelling in numerous technologically important applications. Appropriate gas phase enthalpies of formation for the products were used to calculate scattering cross-section as a function of kinetic energy. Calculated cross-sections can be used to obtain transport parameters as a function of E/N (E - electric field, N - gas density) for H⁺ in n-butanol gas.

6

Modeling of Electron Kinetics in BF_{3}

76%

Nikitović Ž., Šašić O., Raspopović Z., Stojanović V., Radovanov S., Mozetič M., Cvelbar U.

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issue 5

748-751

EN

In this paper we used the available data for the electron impact scattering cross sections BF_{3} to calculate the transport coefficients for electrons. Monte Carlo simulation was used to perform calculations of the transport coefficients as well as the rate coefficients in DC electric fields, crossed electric and magnetic DC and RF fields.

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6 Acta Physica Polonica A

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6 Nikitović Ž.

6 Raspopović Z.

6 Stojanović V.

2 Jovanović J.

1 Cvelbar U.

1 Mozetič M.

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Cross-Sections and Transport Properties of F^{-} Ions in F_2

Transport Parameters of F^- Ions in BF_3

Cross-Section and Transport Parameters of Ne⁺ in CF₄

Rate Coefficients of F^{-} Ions in Ar/BF_{3} Mixtures

H⁺ Scattering in n-Butanol

Modeling of Electron Kinetics in BF_{3}