Numerical experiment shows alternating-current-driven waves cause a magnetic null to collapse into y-directed then x-directed current sheets, with Hall effect producing lagged out-of-plane flows whose amplitudes increase with driving strength.
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2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Recurrent coronal jets show QPPs of 6-13 min periods driven by periodic reconnection, with flux periodicities and sub-cooling timescales implying persistent localized heating in fan-spine structures.
citing papers explorer
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A Numerical Experiment on Oscillatory Magnetic Reconnection in a Laboratory Plasma System Driven by Alternating Currents
Numerical experiment shows alternating-current-driven waves cause a magnetic null to collapse into y-directed then x-directed current sheets, with Hall effect producing lagged out-of-plane flows whose amplitudes increase with driving strength.
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Recurrent Coronal Jets and QPPs: Periodic Reconnection and Localized Heating Across Quiet-Sun to Active Regions
Recurrent coronal jets show QPPs of 6-13 min periods driven by periodic reconnection, with flux periodicities and sub-cooling timescales implying persistent localized heating in fan-spine structures.