Swarm Observation of Field‐Aligned Currents Associated With Multiple Auroral Arc Systems

Wu, Jiashu; Knudsen, D. J.; Gillies, D. M.; Donovan, E.; Burchill, J. K.

doi:10.1002/2017ja024439

Cited by 28 publications

(31 citation statements)

References 44 publications

(63 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…This serves as a bound on the raw uncertainty in the magnetometer measurements, which translates to ∼2-μA/m 2 uncertainty in current density (under typical sheet-like current structure assumptions) for the 0.1-Hz sampling rate. While this uncertainty is large compared to those obtained with a scientific grade magnetometer, it is small compared to current densities observed in specific case studies of active aurora (e.g., Stasiewicz & Potemra, 1998;Wu et al, 2017).…”

Section: Figures 3a and 3bmentioning

confidence: 81%

“…The main progenitors for the present study are the ST‐5 (Slavin et al, ) and SWARM (Gillies et al, ; Ritter & Lühr, ) missions. For both missions, studies involving auroral arc crossings have revealed substantial space‐time variability in FACs, even under quiet conditions (Cumnock et al, ; Wu et al, ). The sensors used in the present study are lower quality “engineering grade” magnetometers, but the sheer number of sensors available in the Planet constellation (presently ∼200) poses interesting questions about trade‐offs between sensor capability, network density, and network coverage.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Leveraging Commercial Cubesat Constellations for Auroral Science: A Case Study

et al. 2019

View full text Add to dashboard Cite

Magnetometers deployed on the largest satellite constellation to date are leveraged as a space‐based sensor network to study space‐time variability in auroral field‐aligned currents (FACs). The cubesat constellation of Planet Labs Inc. consists of nearly 200 satellites in two polar Sun‐synchronous orbits, with median spacecraft separations on the order of 375 km, and some occasions of opportunity providing much closer spacing. Each spacecraft contains a magnetoinductive magnetometer, able to sample the ambient magnetic field at 0.1 to 10 Hz with <200‐nT sensitivity. In this study, seven satellites from the Planet constellation were used to investigate space‐time variations in FACs over an active auroral display during a 10‐min interval. The aurora occurred during the early recovery phase of a geomagnetic storm and was characterized by large‐scale vortical motions and embedded rayed structure. Clear signatures of the large‐scale auroral current system were detected by the orbital magnetometers. Estimation of FAC patterns was carried out using three different methods. The results suggest a high degree of spatial and temporal variability during the 10‐min interval. The location of upward and downward current channels relative to the aurora was consistent with theoretical expectations, but current densities were not well correlated with visible features in the available imagery, suggesting unresolved small‐scale structure not captured by the collaborative observations. Advantages, limitations, and caveats in using opportunistic networks of low‐quality space‐based magnetometers to study dynamic auroral phenomena are discussed.

show abstract

Section: Figures 3a and 3bmentioning

confidence: 81%

Section: Discussionmentioning

confidence: 99%

Leveraging Commercial Cubesat Constellations for Auroral Science: A Case Study

et al. 2019

View full text Add to dashboard Cite

show abstract

“…For both cases we show the multiscale FAC density and compare the scale integrated FAC density with the input FAC density. The simple case of a pair of FACs resembles the large scale R1/R2 system, as well as, the basic cell of a multiple arc system (Gillies et al, 2014;Wu et al, 2017). In the second case, the embedded smaller scale superposition can be associated to the analysis of the auroral oval with embedded smaller scale FACs, e.g.…”

Section: Synthetic Fac Structuresmentioning

confidence: 99%

“…The relation between multiple arc systems and their FAC signatures was addressed recently by (Wu et al, 2017) based on Swarm/THEMIS ASI observations. Wu et al (2017) selected events with clearly identifiable stable arcs and separated the observations in two categories, unipolar (multiple arcs embedded into a single large upward FAC) and multipolar events (a collection of multiple arcs and related pairs of upward and downward FACs). Arcs associated with multipolar FAC events were found to be broader and more separated than those associated with unipolar FAC events.…”

Section: Small Scale Auroral Observations Embedded Into a Large Scalementioning

confidence: 99%

See 1 more Smart Citation

Multiscale estimation of the field-aligned current density

Bunescu¹,

Vogt²,

Blăgău³

et al. 2018

Preprint

View full text Add to dashboard Cite

Abstract. Field-aligned currents (FACs) in the magnetosphere-ionosphere (M-I) system exhibit a range of spatial and temporal scales that are linked to key dynamic coupling processes. To disentangle the scale dependence in magnetic field signatures of auroral FACs and to characterize their geometry and orientation, Bunescu et al. (2015) introduced the multi-scale FAC analyzer framework based on minimum variance analysis (MVA) of magnetic time series segments. In the present report this approach is carried further to include in the analysis framework a FAC density scalogram, i.e., a multiscale representation of the FAC density time series. The new technique is validated and illustrated using synthetic data consisting of overlapping sheets of FACs at different scales. The method is applied to Swarm data showing both large-scale and quiet aurora as well as mesoscale FAC structures observed during more disturbed conditions. We show both planar and non-planar FAC structures as well as uniform and non-uniform FAC density structures. For both, synthetic and Swarm data, the multiscale analysis is applied by two scale sampling schemes, namely the linear, and the logarithmic scanning of the FACs scale domain. The scale integrated FAC density is computed by both small-scale and large-scale weighting. The integrated multiscale FAC density is compared with the input FAC density for the synthetic data, whereas for the Swarm data we cross-check the results with well established single- and dual-spacecraft techniques. The entire multiscale information provides a new visualization tool for the complex FAC signatures, that complement other FAC analysis tools.

show abstract

Externally Driven Onset of Localized Magnetic Reconnection and Disruption in a Magnetotail Configuration

Pritchett

2018

JGR Space Physics

View full text Add to dashboard Cite

The response of a magnetotail equilibrium containing dipole magnetic field and plasma sheet regions to the imposition of a longitudinally limited, high‐latitude driving electric field is investigated using 3‐D particle‐in‐cell simulations. The initial response involves a reduction in the equatorial Bz field that is then followed by the development of a dawn‐dusk asymmetric thin current sheet relative to the meridian plane of the driving field. Continued driving leads to the onset of localized reconnection and the emergence of magnetic flux ropes. The cross‐tail extent of the reconnection expands but remains limited to ∼30di, where di is the ion inertia length. A later stage involves disruption of the plasma sheet earthward of the initial X‐line with the formation of multiple field‐aligned currents connecting to the earthward boundary and strong local energization of the ions (4 times thermal) and electrons (10 times thermal). These results demonstrate the ability of a high‐latitude disturbance that may be connected to dayside flow channels to initiate localized magnetic reconnection and disruption in the magnetotail.

show abstract

Swarm Observation of Field‐Aligned Currents Associated With Multiple Auroral Arc Systems

Cited by 28 publications

References 44 publications

Leveraging Commercial Cubesat Constellations for Auroral Science: A Case Study

Leveraging Commercial Cubesat Constellations for Auroral Science: A Case Study

Multiscale estimation of the field-aligned current density

Externally Driven Onset of Localized Magnetic Reconnection and Disruption in a Magnetotail Configuration

Contact Info

Product

Resources

About