Flavio Poehlmann scite author profile

Flavio Poehlmann

4Publications

40Citation Statements Received

71Citation Statements Given

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Affiliations

Temper (United States), Stanford University

Publications

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Current distribution measurements inside an electromagnetic plasma gun operated in a gas-puff mode

Poehlmann

Cappelli

Rieker³

2010

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Measurements are presented of the time-dependent current distribution inside a coaxial electromagnetic plasma gun. The measurements are carried out using an array of six axially distributed dual-Rogowski coils in a balanced circuit configuration. The radial current distributions indicate that operation in the gas-puff mode, i.e., the mode in which the electrode voltage is applied before injection of the gas, results in a stationary ionization front consistent with the presence of a plasma deflagration. The effects of varying the bank capacitance, transmission line inductance, and applied electrode voltage were studied over the range from 14 to 112 F, 50 to 200 nH, and 1 to 3 kV, respectively.

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High-Velocity Neutral Plasma Jet Formed by Dense Plasma Deflagration

Loebner

Wang

Poehlmann³

et al. 2014

IEEE Trans. Plasma Sci.

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The Deflagration - Detonation Transition in Gas-Fed Pulsed Plasma Accelerators

Poehlmann¹,

Gascon²

2007

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A Thomson-type mass and energy spectrometer for characterizing ion energy distributions in a coaxial plasma gun operating in a gas-puff mode

2013

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Measurements of ion energy distribution are performed in the accelerated plasma of a coaxial electromagnetic plasma gun operating in a gas-puff mode at relatively low discharge energy (900 J) and discharge potential (4 kV). The measurements are made using a Thomson-type mass and energy spectrometer with a gated microchannel plate and phosphor screen as the ion sensor. The parabolic ion trajectories are captured from the sensor screen with an intensified charge-coupled detector camera. The spectrometer was designed and calibrated using the Geant4 toolkit, accounting for the effects on the ion trajectories of spatial non-uniformities in the spectrometer magnetic and electric fields. Results for hydrogen gas puffs indicate the existence of a class of accelerated protons with energies well above the coaxial discharge potential (up to 24 keV). The Thomson analyzer confirms the presence of impurities of copper and iron, also of relatively high energies, which are likely erosion or sputter products from plasma-electrode interactions. V C 2013 AIP Publishing LLC. [http://dx

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