Jelena Savović scite author profile

Jelena Savović

5Publications

54Citation Statements Received

46Citation Statements Given

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174

Affiliations

University Hospitals Bristol NHS Foundation Trust, University of Belgrade, Chemical Dynamics (United States)

Publications

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The effect of potassium addition on plasma parameters in argon dc plasma arc

Ranković

Kuzmanović

Savović

et al. 2010

J. Phys. D: Appl. Phys.

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The effect of potassium addition on the radial distribution of temperature and electron number density in a U-shaped direct current (dc) argon plasma operating at different arc currents has been studied by optical emission spectroscopic techniques and the power interruption method. Spatially resolved electron number densities (n e) have been determined from measured radial profiles of Balmer-Hβ spectral line. The obtained electron number densities have been used for thermodynamic temperature (T LTE) evaluation with the assumption that the arc plasma is in a state of local thermodynamic equilibrium. The excitation temperatures (T exc) have been determined from the absolute integral emissivity of the argon line at 430.01 nm. For heavy particle temperature (T h) evaluations we have used a power interruption method. The obtained results have shown that an addition of KCl decreases both electron number density and temperature of the arc column. The magnitude of such an influence on plasma parameters increases with an increase in the KCl concentration and decreases with an increase in the arc current.

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Temporal responses of spectral line intensities emitted by d.c. arc plasma with aerosol supply studied by power interruption technique

Kuzmanović

Pavlović

Savović

et al. 2003

Spectrochimica Acta Part B: Atomic Spectroscopy

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The feasibility of TEA CO2 laser-induced plasma for spectrochemical analysis of geological samples in simulated Martian conditions

Savović

Stoiljković

Kuzmanović

et al. 2016

Spectrochimica Acta Part B: Atomic Spectroscopy

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Optical Emission Studies of Copper Plasma Induced Using Infrared Transversely Excited Atmospheric (IR TEA) Carbon Dioxide Laser Pulses

et al. 2015

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Spatially resolved, time-integrated optical emission spectroscopy was applied for investigation of copper plasma produced by a nanosecond infrared (IR) transversely excited atmospheric (TEA) CO2 laser, operating at 10.6 μm. The effect of surrounding air pressure, in the pressure range 0.1 to 1013 mbar, on plasma formation and its characteristics was investigated. A linear dependence of intensity threshold for plasma formation on logarithm of air pressure was found. Lowering of the air pressure reduces the extent of gas breakdown, enabling better laser-target coupling and thus increases ablation. Optimum air pressure for target plasma formation was 0.1 mbar. Under that pressure, the induced plasma consisted of two clearly distinguished and spatially separated regions. The maximum intensity of emission, with sharp and well-resolved spectral lines and negligibly low background emission, was obtained from a plasma zone 8 mm from the target surface. The estimated excitation temperature in this zone was around 7000 K. The favorable signal to background ratio obtained in this plasma region indicates possible analytical application of TEA CO2 laser produced copper plasma. Detection limits of trace elements present in the Cu sample were on the order of 10 ppm (parts per million). Time-resolved measurements of spatially selected plasma zones were used to find a correlation between the observed spatial position and time delay.

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Spectrochemical analysis of powdered biological samples using transversely excited atmospheric carbon dioxide laser plasma excitation

Živković

Momčilović

Staicu

et al. 2017

Spectrochimica Acta Part B: Atomic Spectroscopy

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Jelena Savović

The effect of potassium addition on plasma parameters in argon dc plasma arc

Temporal responses of spectral line intensities emitted by d.c. arc plasma with aerosol supply studied by power interruption technique

The feasibility of TEA CO2 laser-induced plasma for spectrochemical analysis of geological samples in simulated Martian conditions

Optical Emission Studies of Copper Plasma Induced Using Infrared Transversely Excited Atmospheric (IR TEA) Carbon Dioxide Laser Pulses

Spectrochemical analysis of powdered biological samples using transversely excited atmospheric carbon dioxide laser plasma excitation

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