Flow Shears at the Poleward Boundary of Omega Bands Observed During Conjunctions of Swarm and THEMIS ASI

Omega bands are curved aurora forms that evolve from a quiet arc located along the poleward edge of a diffuse auroral band within the midnight to morningside auroral oval. They usually propagate eastward. Because omega bands are a significant contributor to an active magnetotail, knowledge about their generation is important for understanding tail dynamics. Previous studies have shown that auroral streamers, footprints of fast flows in the tail, can propagate into omega bands. Such events, however, are limited, and it is still unclear whether and how the flows trigger the bands. The ionospheric flows associated with omega bands may provide valuable information on the driving mechanisms of the bands. We examine these flows taking advantage of the conjunctions between the Swarm spacecraft and Time History of Events and Macroscale Interactions during Substorms all‐sky imagers, which allow us to demonstrate the relative location of the flows to the omega bands' bright arcs for the first time. We find that a strong eastward ionospheric flow is consistently present immediately poleward of the omega band's bright arc, resulting in a sharp flow shear near the poleward boundary of the band. This ionospheric flow shear should correspond to a flow shear near the inner edge of the plasma sheet. This plasma sheet shear may drive a Kelvin‐Helmholz instability which then distorts the quiet arc to form omega bands. It seems plausible that the strong eastward flows are driven by streamer‐related fast flows or enhanced convection in the magnetotail.

[1]  Yoshimasa Tanaka,et al.  Morphologies of omega band auroras , 2017, Earth, Planets and Space.

[2]  J. Weygand,et al.  Statistical study of auroral omega bands , 2017, 1710.06688.

[3]  L. Juusola,et al.  Birkeland current boundary flows , 2017 .

[4]  J. Wahlund,et al.  Thermal ion imagers and Langmuir probes in the Swarm electric field instruments , 2017 .

[5]  R. McPherron,et al.  Distribution of Region 1 and 2 currents in the quiet and substorm time plasma sheet from THEMIS observations , 2016 .

[6]  M. Henderson Recurrent embedded substorms during the 19 October 1998 GEM storm , 2016 .

[7]  G. Reeves,et al.  On the formation and origin of substorm growth phase/onset auroral arcs inferred from conjugate space‐ground observations , 2015 .

[8]  Juan V. Rodriguez,et al.  An interpretation of spacecraft and ground based observations of multiple omega band events , 2015 .

[9]  M. Kivelson,et al.  Ionospheric flow shear associated with the preexisting auroral arc: A statistical study from the FAST spacecraft data , 2015 .

[10]  F. Toffoletto,et al.  RCM‐E simulation of a thin arc preceded by a north‐south‐aligned auroral streamer , 2014 .

[11]  F. Toffoletto,et al.  RCM‐E simulation of substorm growth phase arc associated with large‐scale adiabatic convection , 2013 .

[12]  A. Runov,et al.  Magnetic flux transport by dipolarizing flux bundles , 2013 .

[13]  Hermann Lühr,et al.  Determining field-aligned currents with the Swarm constellation mission , 2013, Earth, Planets and Space.

[14]  O. Amm,et al.  General solution for calculating polarization electric fields in the auroral ionosphere and application examples , 2013 .

[15]  V. Angelopoulos,et al.  On the current sheets surrounding dipolarizing flux bundles in the magnetotail: The case for wedgelets , 2013 .

[16]  M. Henderson Auroral Substorms, Poleward Boundary Activations, Auroral Streamers, Omega Bands, and Onset Precursor Activity , 2013 .

[17]  V. Angelopoulos,et al.  On the force balance around dipolarization fronts within bursty bulk flows , 2011 .

[18]  Robert C. Fear,et al.  Midnight sector observations of auroral omega bands , 2011 .

[19]  Tetsuya T. Yamamoto,et al.  A numerical simulation for the omega band formation , 2011 .

[20]  V. Angelopoulos,et al.  Reply to comment by Harald U. Frey on “Substorm triggering by new plasma intrusion: THEMIS all‐sky imager observations” , 2009 .

[21]  K. Kauristie,et al.  Electrodynamics of an omega-band as deduced from optical and magnetometer data , 2009 .

[22]  Harald U. Frey,et al.  The THEMIS Array of Ground-based Observatories for the Study of Auroral Substorms , 2008 .

[23]  G. Hulot,et al.  Swarm: A constellation to study the Earth’s magnetic field , 2006 .

[24]  A. Viljanen,et al.  Mesoscale ionospheric electrodynamics of omega bands determined from ground-based electromagnetic and satellite optical observations , 2005 .

[25]  V. Angelopoulos,et al.  Wind survey of high‐speed bulk flows and field‐aligned beams in the near‐Earth plasma sheet , 2002 .

[26]  Wolfgang Baumjohann,et al.  Earthward flow bursts, auroral streamers, and small expansions , 2001 .

[27]  Eric Donovan,et al.  The auroral signature of earthward flow bursts observed in the magnetotail , 2000 .

[28]  Timothy K. Yeoman,et al.  Multi-instrument observations of the electric and magnetic field structure of omega bands , 2000 .

[29]  W. Hughes,et al.  Structure of disturbances in the dayside and nightside ionosphere during periods of negative interplanetary magnetic field Bz , 1999 .

[30]  Harlan E. Spence,et al.  A study of omega bands and Ps6 pulsations on the ground, at low altitude and at geostationary orbit , 1999 .

[31]  Michael G. Henderson,et al.  Are north‐south aligned auroral structures an ionospheric manifestation of bursty bulk flows? , 1998 .

[32]  Nikolai A. Tsyganenko,et al.  Modeling the Earth's magnetospheric magnetic field confined within a realistic magnetopause , 1995 .

[33]  H. Lühr,et al.  Combined measurements of EISCAT and the EISCAT magnetometer cross to study Ω bands , 1994 .

[34]  P. Anderson,et al.  Electrodynamic parameters in the nighttime sector during auroral substorms , 1994 .

[35]  C. Meng,et al.  A Particle Simulation of Auroral Omega Bands and Torch-Like Structures. , 1993 .

[36]  G. Rostoker,et al.  Source mechanisms for morning auroral features , 1993 .

[37]  G. Paschmann,et al.  Bursty bulk flows in the inner central plasma sheet , 1992 .

[38]  A. Walker,et al.  Simultaneous observations of omega band related phenomena in both hemispheres , 1991 .

[39]  H. Opgenoorth,et al.  Regions of strongly enhanced perpendicular electric fields adjacent to auroral arcs , 1990 .

[40]  R. Walterscheid,et al.  Generation of auroral omega bands by shear instability of the neutral winds , 1985 .

[41]  J. Samson,et al.  Can substorm expansive phase effects and low frequency Pc magnetic pulsations be attributed to the same source mechanism , 1984 .

[42]  J. Oksman,et al.  Characteristics of eastward drifting omega bands in the morning sector of the auroral oval , 1983 .

[43]  Wolfgang Baumjohann,et al.  Comparison of Height-Integrated Current Densities Derived From Ground-Based Magnetometer and Rocket-Borne Observations During the Porcupine F3 and F4 Flights , 1983 .

[44]  Göran Marklund,et al.  Auroral arc classification scheme based on the observed arc-associated electric field pattern , 1983 .

[45]  W. J. Burke,et al.  Effects of high‐latitude conductivity on observed convection electric fields and Birkeland currents , 1980 .

[46]  G. Rostoker,et al.  Perturbation magnetic fields and current systems associated with eastward drifting auroral structures , 1979 .

[47]  R. Hoffman,et al.  Properties of spikelike shear flow reversals observed in the auroral plasma by Atmosphere Explorer C , 1976 .

[48]  T. Potemra,et al.  The amplitude distribution of field-aligned currents at northern high latitudes observed by TRIAD. Interim report , 1975 .

[49]  S.-I. Akasofu,et al.  A study of auroral displays photographed from the DMSP-2 satellite and from the Alaska meridian chain of stations , 1974 .

[50]  S.-I. Akasofu,et al.  The dynamics of the aurora - i. instabilities of the aurora , 1964 .

[51]  John Leif Jørgensen,et al.  The Swarm Magnetometry Package , 2008 .

[52]  J. Burchill High-resolution observations of core and suprathermal ions in the auroral ionosphere: techniques and results from the GEODESIC sounding rocket , 2003 .

[53]  H. Spence,et al.  The Evolution of North-South Aligned Auroral Forms into Auroral Torch Structures : The Generation of Omega Bands and Ps6 Pulsations via Flow Bursts. , 2002 .

[54]  Wolfgang Baumjohann,et al.  Ionospheric and field-aligned current systems in the auroral zone: a concise review , 1982 .