Lidiya Y. Ahmed scite author profile

The rapid changes of magnetic fields associated with large, isolated magnetic perturbations with amplitudes |ΔB| of hundreds of nanotesla and 5‐ to 10‐min periods can induce bursts of geomagnetically induced currents that can harm technological systems. This paper presents statistical summaries of the characteristics of nightside magnetic perturbation events observed in Eastern Arctic Canada from 2014 through 2017 using data from stations that are part of four magnetometer arrays: MACCS, AUTUMNX, CANMOS, and CARISMA, covering a range of magnetic latitudes from 68 to 78°. Most but not all of the magnetic perturbation events were associated with substorms: roughly two thirds occurred between 5 and 30 min after onset. The association of intense nighttime magnetic perturbation events with magnetic storms was significantly reduced at latitudes above 73°, presumably above the nominal auroral oval. A superposed epoch study of 21 strong events at Cape Dorset showed that the largest |dB/dt| values appeared within an ~275‐km radius that was associated with a region of shear between upward and downward field‐aligned currents. The statistical distributions of impulse amplitudes of both |ΔB| and |dB/dt| fit well the log‐normal distribution at all stations. The |ΔB| distributions are similar over the magnetic latitude range studied, but the kurtosis and skewness of the |dB/dt| distributions show a slight increase with latitude. Knowledge of the statistical characteristics of these events has enabled us to estimate the occurrence probability of extreme impulsive disturbances using the approximation of a log‐normal distribution.

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Superposed Epoch Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada

Engebretson

Ahmed

Pilipenko

et al. 2021

JGR Space Physics

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Rapid changes of magnetic fields associated with nighttime magnetic perturbation events (MPEs) with amplitudes |ΔB| of hundreds of nT and 5–10 min duration can induce geomagnetically induced currents (GICs) that can harm technological systems. Here we present superposed epoch analyses of large nighttime MPEs (|dB/dt| ≥ 6 nT/s) observed during 2015 and 2017 at five stations in Arctic Canada ranging from 64.7° to 75.2° in corrected geomagnetic latitude (MLAT) as functions of the interplanetary magnetic field (IMF), solar wind dynamic pressure, density, and velocity, and the SML, SMU, and SYM/H geomagnetic activity indices. Analyses were produced for premidnight and postmidnight events and for three ranges of time after the most recent substorm onset: (a) 0–30 min, (b) 30–60 min, and (c) >60 min. Of the solar wind and IMF parameters studied, only the IMF Bz component showed any consistent temporal variations prior to MPEs: a 1–2 h wide 1–3 nT negative minimum at all stations beginning ∼30–80 min before premidnight MPEs, and minima that were less consistent but often deeper before postmidnight MPEs. Median, 25th, and 75th percentile SuperMAG auroral indices SML (SMU) showed drops (rises) before pre‐ and post‐midnight type A MPEs, but most of the MPEs in categories B and C did not coincide with large‐scale peaks in ionospheric electrojets. Median SYM/H indices were flat near −30 nT for premidnight events and showed no consistent temporal association with any MPE events. More disturbed values of IMF Bz, Psw, Nsw, SML, SMU, and SYM/H appeared postmidnight than premidnight.

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Superposed Epoch Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada

Engebretson

Ahmed

Pilipenko³

et al. 2021

Preprint

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The threat to both spaceborne and ground-based technological systems posed by extreme events in Earth's space environment has led in recent years to numerous observational and modeling studies of the impact of dynamical processes in the solar corona that are conveyed to Earth via the solar wind plasma and interplanetary magnetic field that interact with Earth's magnetosphere and ionosphere.The influence of extreme solar phenomena on Earth was first documented for the Carrington event of 1859 (Carrington, 1859), in which a large and complex set of solar flares caused not only widespread auroral displays but also disturbances in telegraph systems over a large portion of Earth. Observations of similarly rare events since then, such as recent studies of the great magnetic storms of May 1921 and March 1989 and their effects (Boteler, 2019Hapgood, 2019;Love et al., 2019) have shown in more detail the ways in which "space weather" can have deleterious impacts on large-scale human technological systems, even to the extent of causing a blackout of the entire Hydro-Quebec electrical grid.The mechanisms by which these externally driven events caused dangerous electrical currents at Earth's surface are now known to be rapid variations in Earth's geomagnetic field -large unipolar or bipolar solitary pulses predominantly in the premidnight sector or Pi3 or Ps6 pulsations in the postmidnight sectorwith typical amplitudes |ΔB| of hundreds of nT and 5-10 min duration- (Belakhovsky et al., 2018;

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Nighttime magnetic perturbation events observed in Arctic Canada: Investigating their associations with localized field-aligned currents and with substorms

Engebretson¹,

Ahmed²,

Pilipenko³

et al. 2020

Preprint

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Lidiya Y. Ahmed

Nighttime Magnetic Perturbation Events Observed in Arctic Canada: 1. Survey and Statistical Analysis

Superposed Epoch Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada

Superposed Epoch Analysis of Nighttime Magnetic Perturbation Events Observed in Arctic Canada

Nighttime magnetic perturbation events observed in Arctic Canada: Investigating their associations with localized field-aligned currents and with substorms

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