R. A. Behbahani scite author profile

R. A. Behbahani

5Publications

57Citation Statements Received

99Citation Statements Given

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119

Affiliations

University of Saskatchewan, University of Tehran, University of Colorado Denver

Publications

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Anomalous resistivity effect on multiple ion beam emission and hard x-ray generation in a Mather type plasma focus device

Behbahani

Aghamir

2011

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Multi ion beam and hard x-ray emissions were detected in a high inductance (more than 100 nH) Mather type plasma focus (PF) device at different filling gas pressures and charging voltages. The signal analysis was performed through the current trace, as it is the fundamental signal from which all of the phenomena in a PF device can be extracted. Two different fitting processes were carried out according to Lee’s computational (snow-plow) model. In the first process, only plasma dynamics and classical (Spitzer) resistances were considered as energy consumer parameters for plasma. This led to an unsuccessful fitting and did not answer the energy transfer mechanism into plasma. A second fitting process was considered through the addition of anomalous resistance, which provided the best fit. Anomalous resistance was the source of long decrease in current trace, and multi dips and multi peaks of high voltage probe. Multi-peak features were interpreted considering the second fitting process along with the mechanisms for ion beam production and hard x-ray emission. To show the important role of the anomalous resistance, the duration of the current drop was discussed.

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Common features of particle beams and x-rays generated in a low energy dense plasma focus device

Behbahani

Xiao

2015

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Features of energetic charged particle beams and x-ray emission in a low energy (1-2 kJ) plasma focus (DPF) device are described and the possible mechanism are explained based on circuit analyses and energy balance in the DPF system. In particular, the resistance and the voltage across the plasma column are estimated to explain the mechanisms of the generation of particle beams and hard x-ray. The analysis shows that the total inductance of a DPF might have played a role for enhancement of the particle beams and x-ray emissions during the phase of anomalous resistance.

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Correlation of current drop, filling gas pressure, and ion beam emission in a low energy Mather-type plasma focus device

Behbahani

Aghamir

2012

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The behavior of current drop and its correlation with ion beam emission during the radial phase of a high inductance low energy Mather type plasma focus device have been studied. The study includes two ranges of filling gas pressure, namely the low range of 0.2–0.8 mbar and the high range of 0.8–1.5 mbar. Two different current simulation processes were performed to aid the interpretation of the experimental results. Within the low range of operating pressure, an acceptable match between the computed and experimental current signals was achieved when the effects of anomalous resistances were contemplated. While in the high range of pressure, the computed and experimental current traces were in line even without considering the effects of anomalous resistances. The analysis shows that by decreasing the filling gas pressure the effects of instabilities are intensified. The computed and experimental current traces, along with ion beam signals gathered from a faraday cup, show that there is a strong correlation between the intensity of ion beam and its duration with the current drop during the radial phase.

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Design considerations for a pulse line ion accelerator (PLIA)‐based PET isotope generator

et al. 2018

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Post-pinch generation of electron beam in a low energy Mather-type plasma focus device

Behbahani¹,

Aghamir²

2013

J. Plasma Phys.

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The post-pinch generation of electron beam in a low energy Mather-type plasma focus (PF) device has been investigated. A fast-calibrated Rogowski coil was used to monitor the emission of electron beam. A two-channel diode X-ray spectrometer along with suitable filters provided the records of energy spectrum of X-ray radiation. Single time-period emissions of electron beam with duration of 100 to 20 ns were recorded in the high range of the device operating pressure (0.8-2 mbar). However, in the low range regime (0.2-0.8 mbar), occurrence of single spike electron beam with duration of 150 ± 50 ns, as well as multi-emission of electrons with duration of 400 ± 50 ns, was visible. A multi-peak of tube voltage along with multi-time-period radiation of X-rays dominated by copper lines (Cuk α and Cuk β ) was noticeable in the low-pressure range. The generated electron beam during the post-pinch phase of anomalous resistances is suspected to be the main source of X-ray radiation. This can also be related to the turbulence of the plasma column during the occurrence of anomalous resistances.

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R. A. Behbahani

Anomalous resistivity effect on multiple ion beam emission and hard x-ray generation in a Mather type plasma focus device

Common features of particle beams and x-rays generated in a low energy dense plasma focus device

Correlation of current drop, filling gas pressure, and ion beam emission in a low energy Mather-type plasma focus device

Design considerations for a pulse line ion accelerator (PLIA)‐based PET isotope generator

Post-pinch generation of electron beam in a low energy Mather-type plasma focus device

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