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Report on GEM Snowmass Meeting, June 26-30, 1995 
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TAIL/SUBSTORM CAMPAIGN WG 2:
SUBSTORM/TAIL PHENOMENOLOGY - OBSERVATIONS AND MODELS
Co-Chairs:  Harlan Spence and Terry Onsager

Working group 2 has been focusing on the combination of models
and data in order to facilitate the quantitative testing of current
models and to promote discussion of model capabilities and
limitations.  The topics emphasized at this summer's meeting
were: 1) Model Predictions and Data Comparisons and 2) Substorm
Triggers: Theoretical Predictions and Observational Constraints.
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1)  Model Predictions and Data Comparisons

The goal of this workshop session was to identify specific predictions 
of models involving magnetotail structure or dynamics and to identify
observations that could be used to test the models and to differentiate
between features of similar models.  Some of the participants presented
comparisons of their model results with data, while others made
predictions that we expect could be tested in the near future.  The
models that were presented are listed below.  Those who presented models
are encouraged to refine further their quantitative tests and to present
their results at the 1996 GEM Snowmass summer meeting.  Anyone who has
observational evidence that is relevant to the model predictions is
encouraged to collaborate with the investigator to provide tests that
will be as comprehensive as possible.  The models presented at the
summer meeting are summarized below:
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Presenter:  John Lyon
Model:  Global 3-D MHD

John presented predictions of the temporal evolution of the near-Earth 
magnetotail during a substorm.  He showed a timing chart, beginning with
a southward turning of the IMF, that included current disruption,
transient electric field signatures, and a variety of additional effects.
Although approximate timing of specific features was presented, John made
the point that because the substorm involves a global loss of equilibrium,
a comparison of events detected by spatially separated spacecraft will be
difficult to compare quantitatively with the simulations.  The challenge
now will be to define better the specific features seen in the simulation
results and to obtain data for comparison.

Presenter:  Jim Raeder
Model:  Global 3-D MHD

Jimmy showed a comprehensive set of results from his simulations,
including predictions of AU and AL in the ionosphere, Bz, Vx, Ey,
n, and T in the near and distant tail, and signatures of plasmoids and
flux ropes.  The simulation results had a close quantitative 
correspondence with data obtained from the Galileo spacecraft.  As
with the results presented by John Lyon, many of the signatures
associated with substorm onset occurred nearly simultaneously in
the near-Earth region.  Further study will be required to determine
which processes associated with substorm onset precede or perhaps
cause others.

Presenter:  Joachim Birn
Model:  3-D MHD Model of the Magnetotail

Joachim's simulation was also designed to investigate substorm
onset.  The results indicated the intensification of the cross-tail
electric field, intensification of the cross-tail current, and
intensification of the total Region 1 field-aligned currents associated
with substorm onset, with timing similar to that seen in the global
MHD simulations.  A specific prediction of this model is that the
cross-tail current diversion occurs along sheets located roughly in x-z 
planes with large local-time extent, rather than at the local-time
edges of the current-diversion region.

Presenter:  Michael Hesse
Model:  2-D Hybrid Code

Michael described the formation of thin current sheets by imposing
a convection electric field at the simulation boundaries.  His two
main points were that only a small fraction of the electric field
penetrates into the central region of the simulation where the thin
current sheets form, and that the current within the thin sheets is
carried predominately by the electrons.

Presenter:  Robert Winglee
Model:  Global 3-D MHD and Global 3-D MHD with 2-fluid Effects

Robert used both the MHD and the 2-fluid codes to investigate the
location of auroral currents and the equatorward edge of the evening
auroral oval as a function of IMF and solar wind dynamic pressure.
One specific prediction is that cusp currents form in the 2-fluid
simulation that are not present in MHD simulations.

Presenter:  Ron Elsen:
Model:  Global 3-D MHD

Ron presented a comparison of the magnetopause position predicted 
by his MHD code and observed crossings.  Ron demonstrated that the
magnetopause locations obtained from his code for a wide range of 
solar wind parameters agreed well with the average locations
presented by Petrenic and Russell and by Roeloff and Sibeck.

Presenter:  Tony Lui
Model:  Theory of a Current Disruption Mechanism for Substorms

Tony presented a number of features of his current disruption
scenario for substorms.  He provided some observations tests of his
ideas.  One testable prediction is the presence of broadband whistler
waves in the current sheet at the time of current disruption.  The
whistler waves are also predicted to shift in frequency as current
disruption progresses.  Another test would be to investigate the
stability of observed thin current sheets using Tony's local model of
wave stability.

Presenter:  Dick Wolf
Model:  Magnetospheric Specification Model

Dick proposed a test of the MSM by using measurements from GEOTAIL 
in the near-Earth region (~30 Re downtail) and from geosynchronous
spacecraft.  The plasma sheet at GEOTAIL would be convected to
geosynchronous orbit using the MSM and then compared with particle
data obtained by geosynchronous satellites.

Presenter:  Geoff Reeves:
Model:  Static Magnetic Field Models

Geoff presented results of tests of static magnetic field models by
combining DMSP particle data with geosynchronous satellite data.
By comparing the particle spectra measured by DMSP as a function
of latitude with data at geosynchronous orbit, the approximate
conjugate locations were determined.  These results were then
compared with the field-line mapping given by many different static
magnetic field models.

Presenter:  Ted Speiser
Model:  Particle Trajectory Calculations and Liouville Mapping

Ted described his calculations that are used to model ion distribution
functions in the current sheet.  In one case, an x-line location of
about X = -13 Re was predicted.  One way to test these predictions
would be to identify time periods when near-Earth satellites, such as
AMPTE IRM or CLUSTER, measure ion distributions that suggest the
presence of a near-Earth neutral line and compare with measurements
made simultaneously by either IMP-8 or GEOTAIL farther downtail.

Presenter:  Harlan Spence
Model:  Analytic Model of Plasma Sheet Properties

Harlan described calculations of plasma sheet density, pressure, and
temperature based on a deep-tail plasma source and a low latitude
boundary layer source in a bounce-averaged drift model. A specific
comparison with Galileo measurements indicated quantitative agreement and
predictions were made that about local time dependencies which are being
explored with both magnetospheric and low-altitude spacecraft.


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2) Substorm Triggers: Theoretical Predictions and Observational Constraints.

This session was devoted to identifying measurements that could be used
to quantitatively test specific predictions regarding substorm triggers.
The presentations and discussion covered both theoretical and observational
aspects. As expected, this session was filled with passionate discussion.
In the case of theoretical presentations, an attempt was made to solicit
not only a trigger scenario and its mechanism, but rather to identify an
unambiguous observational signature predicted by the model.  The main
messages from each of the speakers is briefly noted below.
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Presenter:  Hengjin Cai

Hengjin described recent theoretical work on an entropy function
used to characterize the state of the magnetotail.  The discussion
included details about the relationship between the entropy function
and the formation of thin current sheets.  Data from geosynchronous
and plasma sheet measurements could perhaps test these ideas.

Presenter:  Gerard Fasel

Observational constraints were described using all-sky camera images
and meridian scanning photometer measurements made near substorm onset.
In particular, the sudden brightening of an electron signature preceding
onset could be used as an indicator for timing studies.

Presenter:  Larry Lyons

Larry discussed his premise that substorms are always triggered (perhaps)
by a reduction in |Bz| or by a northward turning.  This prediction
was referred to as "The Strong Snowmass Conjecture."  A need for further
quantification of this conjecture and observational tests were stressed.

Presenter:  Shin Ohtani

Shin described results from multiple spacecraft observations regarding
the characteristic time scales of wave phenomena in the current-disruption
region.  These observations placed both temporal and spatial constraints
on the substorm onset processes in the inner magnetotail region.

Presenter:  Victor Sergeev

Victor showed results of timing studies of the propagation of isolated
discontinuities in the solar wind.  It was stressed that two satellites
in the solar wind are necessary to determine properly the orientation of the
discontinuities.  Delays of up to 20 minutes are possible between when
a discontinuity detected upstream actually reaches the magnetosphere and
when it would be predicted based on an assumed discontinuity normal
direction along the solar wind flow direction.

Presenter:  Gary Erickson

Gary presented CRRES observations of particles and fields near substorm
onset.  These results suggested that periodic oscillations of the
plasma sheet with a reversal in the electric field direction may act
as a trigger.  A possible connection to field-line resonances was
considered.

Presenter:  Robert Lysak

Bob proposed that substorm onset may involve a fast enhancement
in ionospheric conductivity caused by a wave resonator effect.  These
ideas could be tested with measurements of PiB's, observations of
structured contuctivity, observations of rapid auroral brightening,
and pseudo-breakups.