Search Results - "Bakrania, Mayur R."

Using Dimensionality Reduction and Clustering Techniques to Classify Space Plasma Regimes by Bakrania, Mayur R., Rae, I. Jonathan, Walsh, Andrew P., Verscharen, Daniel, Smith, Andy W.

“…Collisionless space plasma environments are typically characterized by distinct particle populations. Although moments of their velocity distribution functions…”
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Direct Evidence of Magnetic Reconnection Onset via the Tearing Instability by Bakrania, Mayur R., Rae, I. Jonathan, Walsh, Andrew P., Verscharen, Daniel, Smith, Andy W., Forsyth, Colin, Tenerani, Anna

“…Magnetic reconnection is a sporadic process responsible for energy release in space and laboratory plasmas. It is believed that the tearing mode instability…”
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Direct evidence of magnetic reconnection onset via the tearing instability by Bakrania, Mayur R, Rae, I. Jonathan, Walsh, Andrew P, Verscharen, Daniel, Smith, Andy W, Forsyth, Colin, Tenerani, Anna

“…Magnetic reconnection is a sporadic process responsible for energy release in space and laboratory plasmas. It is believed that the tearing mode instability…”
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Using dimensionality reduction and clustering techniques to classify space plasma regimes by Bakrania, Mayur R, Rae, I. Jonathan, Walsh, Andrew P, Verscharen, Daniel, Smith, Andy W

“…Collisionless space plasma environments are typically characterised by distinct particle populations. Although moments of their velocity distribution functions…”
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Statistics of Solar Wind Electron Breakpoint Energies Using Machine Learning Techniques by Bakrania, Mayur R, Rae, I. Jonathan, Walsh, Andrew P, Verscharen, Daniel, Smith, Andy W, Bloch, Téo, Watt, Clare E. J

“…A&A 639, A46 (2020) Solar wind electron velocity distributions at 1 au consist of a thermal "core" population and two suprathermal populations: "halo" and…”
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