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Report on GEM Snowmass Meeting, June 26-30, 1995 
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TAIL/SUBSTORM CAMPAIGN WG 1:  
SUBSTORM SIGNATURES; IDENTIFICATION, LOCATION, AND TIMING
Co-Chairs: Nelson Maynard and Larry Lyons 

WG-1 is data oriented with a focus of defining an accurate spatial and
temporal description of the substorm process in the magnetosphere and
ionosphere.  The timing of events in one region relative to another is
critical to address the questions of cause and effect.  It is our intent to
assemble definitive data sets that can address key science issues and with
which models of substorm processes can be tested and validated.

At Snowmass last year three sets of events were identified for coordinated
data collection and study.  Data were gathered and sent to the coordinators
for the initiation of collaborations.  A series of substorms in March 1993
was coordinated by Lyons. The January 11-14, 1994 period which featured
GEOTAIL at 90 Re was coordinated by Maynard.  Hughes coordinated several
events with CRRES data from 1991.  Each of the coordinators developed time
lines for each event which were presented at the December meeting at San
Francisco and again at the Snowmass meeting this year.  These are available
by request to the appropriate coordinator.

A large amount of data have been supplied, some of which are available
through Mosaic home pages.  We are extremely pleased with the cooperation of
all who have sent data.  We would like to reiterate, as we proceed to the
analysis phase, that the studies need to remain coordinated.  Rules of the
road should be the same as those on a number of recent satellite programs: 
_____________________________
If you use someone's data, offer that person a chance to be part of the
study, to have the option of participating as a co-author or to add any
necessary and pertinent caveats.  Keep the data suppliers and coordinators
informed as to who is pursuing what topics and events. 
_____________________________

Analysis continued at Snowmass this year.  Each of the three sets of
events, were reviewed, including the time lines and representative data for
each period.  In addition, an ad-hoc interval (not a pre-scheduled GEM
period) from 9 March 1995 was added, with Alan Rodger as the coordinator.
Particular interest in the previously scheduled 94/95 winter GEM periods has
not yet been generated.  Brief synopses of where the analyses stand are
given below.

The March 95 event is another event involving the ISTP satellites
emphasizing this rich source for collaborative studies.  GEM intervals for
the coming year are being picked to correspond to particularly interesting
configurations of the ISTP satellites (see recent WG 1 report for the
Boundary Layer Campaign).  With the sucessful launch of Interball and the
upcoming launches of POLAR, FAST, and Cluster, the opportunity for studies
of ground-based data in conjunction with satellite data are rapidly
expanding.  Discussions were held with POLAR and WIND project leaders on how
to best work together to maximize the scientific output. Nelson Maynard will
be the focal point for interations between GEM and ISTP and Jim Green will
serve that role on the ISTP side.  Their roles will be to facillitate the
direct contacts needed between the communities needed to do the science.
The GEM forum provides a unique focal point for interaction between the
ground-based and satellite investigators.  With this opportunity comes an
imperitive.  Extended missions for WIND and POLAR will be justified next
spring and summer.  Good science coming from coordinated studies will be a
primary factor in the process.  This means that in addition to finishing the
studies in progress, we need to focus quickly on GEM periods from this fall
and winter.  More information will be forthcoming about this fall and winter
later in the plans for the December Workshop at San Francisco.  

A.  CRRES Events  (Hughes)	

Five periods had been previously selected as potential candidate events
with which to study substorn onset signatures, particularly issues around
the relative timing of various signatures observed near synchronous orbit
and from the ground around substorm onset. All were chosen as being substorm
onsets seen by the CRRES spacecraft at times it was near apogee (6.3 Re) and
over the CANOPUS network of ground observatories. 

The candidate events were:
   Date     CRRES Orbit No.  Onset Time (approx)  Study Interval
24 Jan      1991    444               0810                 0700-0900
 9 March    1991    551               0200                 0100-0300
 9 March    1991    551               0600                 0500-0700
23 March    1991    585               0235                 0130-0330
 2 August   1991    902               0600                 0500-0700

At the Snowmass Workshop the timeline for each event and a synopsis of the
data collected thus far was presented. The data are primarily field and
plasma data from CRRES, GOES magnetometer data and Los Alamos particle data
from synchronous orbit, and CANOPUS meridian scanning photometer and
magnetometer data. In addition Greenland magnetometer data and SuperDARN HF
radar data were available for most events, but geographically removed from
the satellite footprints. 

For each event the question was then asked: Is this data set useful for
addressing one of the questions identified as important for the
substorm/tail campaign? For two of the events, the consensus was that the
CRRES data and the particular conjunction would provide a unique
opportunity, for other events the data would provide useful additional
information to other studies.

24 Jan 1991, 0802UT:  
At 0802UT a well defined onset occured in magnetometer and photometer data
from Fort Smith and Fort Simpson in the Yellowknife sector and close to the
foot of the CRRES field line. Effects at CRRES (magnetic field
dipolarization, electron injection), and at the two GOES s/c, located
roughly an hour in local time either side of CRRES, occured some 5 or 6
minutes later. Since the ground onset was observed so close to the nominal
foot of the CRRES field line, it was felt that this event would provide a
good case study for examining delays between ground and synchronous orbit
signatures. Thus scientific analysis should proceed. Hughes will lead this
study.

9 March 1991, 0602UT:
An onset occured at 0602UT when CRRES and GOES 7 were very close, and within
uncertainties, in the same meridian plane, very close to the CANOPUS
Churchill meridian chain of magnetometers and photometers. An auroral
brightening and polarward expansion as well as Pi2's were seen on the
ground. Both CRRES and GOES 7 observed dipolarizations and FAC signatures,
while CRRES wave and plasma data also had good signatures. Even though this
was a weak substorm (almost no AE signature, and only small auroral
magnetogram bays) the consensus was that the very close conjunction of two
s/c at onset made this event interesting, as it allows study of the spatial
and temporal structure of synchronous dipolarizations. Hughes and Singer
will lead this study.

23 March 1991, 0215UT;
At 0215UT an onset occured in the Halley/Greenland sector. CRRES, some
distance to the west, began to see effects at 0224UT, while the main
dipolarization and electron injection occured at 0235UT. The Halley radar
was in a good position to see flows associated with this onset. Pinnock and
Rodger will lead a study of this event focusing on the radar signatures. 

2 August 1991, 0600UT:
CRRES was near the dusk terminator when this onset occured, and no field 
data are available.  

B.  Jan. 11 - 14, 1994 Events  (Maynard)

This interval is particularly rich in activity, and GEOTAIL was at 90 Re in
the tail.  Studies of the relationship of events in the tail relative to
substorm onset  are possible.  The most frustrating aspect of the interval
is the spottiness of the IMF data.  A number of substorms have been
identified.  In general the response at GEOTAIL is happening after ground
onset.  Throughout this period GEOTAIL experiences many intervals of sunward
flow indicating the the X-line is tailward of the satellite.  In other
periods the satellite is in the lobes or in tailward flowing plasma sheet
fluxes.  

On January 12 the substorm onset was identified at 04:30 at geosynchronous.
First ground identification at 04:49.  May be multiple intensifications.
Tailward moving structure seen at 04:50 to 05:18 at GEOTAIL (satellite in
lobes before and after).

On January 13 the substorm onset was at 00:47.5 at Greenland.  GEOTAIL
entered plasmasheet from lobe with gradually increasing tailward flow.
Satellite later reenters lobe and returns.  Later substorm at 03:14 (onset
at Gillam).  Tailward flow seen after 03:22.  

Events on these two days may represent cases of plasmoids or flux ropes or
changes in the plasmasheet boundary layer.  Investigation is continuing.
Nakamura and Angelopoulos have agreed to take the leadon these events.

On January 14 a substorm was detected at Gillam at 06:29.  At 06:37 the
flow direction shifted from earthward to tailward at GEOTAIL  Several
substorms also occurred near the end of the day as the satellite mapped to
the scandanavian sector.  At GEOTAIL the flow reversed a number of times
between earthward and tailward.  This period has a very variable IMF.
Initial interpretation is that the X-line moved several times inside and
then outside of the satellite.  Good ground coverage from Svalbard in the
later period will allow the high latitude aurora to be correlated with the
events at GEOTAIL.  Maynard is taking the lead on this study.  An abstract
has been submitted to AGU.

These events represent the first GEM events involving coordination with an
ISTP satellite.  Other periods within this interval may also be of interest
and may be pursued later.  We expect future GEM campaigns to feature ISTP
collaborations and hope they all work as smoothly as this one.

C.  March 17-25, 1993 Events  (Lyons)

A variety of substorm events have been identified that have good ground
magnetometer, radar, optical, and geosynchronous satellite data.  GEOTAIL
data are available from near 200 RE.  At Snowmass this year it was decided
to focus on the following events and studies:

24 MARCH 0233 (and 0450 UT) ONSET:  Good data coverage at onset with good
radar flow data (at least during 0233 substorm)
    1.  Obtain and evaluate best possible radar flows relative to 0233 onset
	[Pinnock, Lyons, Ruohoniemi] (in progress)
    2.  Detailed evaluation of precipitation relative to 0233 flows
	[Rosenberg] (to be started)
    3.  Correlative study of IMP 8 in tail and GEOTAIL much further out in
	tail for both onsets [Mitchell, Angelopolous] (nearly complete)
    4.  Reconnection rate at Sondrestrom relative to 0450 onset [Blanchard,
	Lyons] (in progress)
    5.  Evaluate flows relative to 0450 onset [Pinnock] (to be looked at)

20 MARCH 0452 ONSET  (GEOTAIL in sheath)  Excellent onset timing event, with
2-point boundary measurements and possibly good radar flow data
    1.  Potential for a good study; first need to examine quality of Goose
	and Halley data [Pinnock, Rodger, Lyons] (to be looked at) 

21 MARCH 0355, 0530 ONSETS:  Good onset identifications 
    1.  Radar flows to be evaluated for quality [Pinnock]
    2.  Possible GEOTAIL interest [Nakamura, Angelopolous]

18 MARCH 0012 UT ONSET:  Well defined onset, but not good flow data from
Halley and Goose Bay radars.
    1.  Possible GEOTAIL interest [Nakamura, Angelopolous]

The flowing events have been identified but not selected for study:

17 MARCH 2350 ONSET:  Does not appear to be a typical substorm?  Has some
characteristics of polar-cap boundary events

20 MARCH 0234 ONSET:  Small event with little radar echoes

20 MARCH 0400 ONSET:  Small, localized but well-defined substorm that
temporally interrupts growth phase; few Halley or Goose Bay echoes

20 MARCH 0530 ONSET:  Period could be useful for detailed Goose-Halley study
of flow changes within plasmasheet and in vicinity of polar-cap boundary

25 MARCH 0519 ONSET:  Good classic substorm event for study if can get good
Goose, Halley flows;  Goose echoes limited, Halley data not looked at in detail

25 MARCH 0557 ONSET:  Onset west of CANOPUS, few Halley or Goose echoes

D.  Ad hoc interval:  9 March 1995 Event (Rodger)

The Wind spacecraft, about 200 Re upstream in the solar wind near the
sun-earth line, detected a rapid southward turning of the interplanetary
magnetic field at 0248 UT on 9 March 1995, after an extended interval (>24
hours) when the field had been northward.  Therefore the magnetosphere was
close to a quiescent state.  One hour after the southward turning, a
relatively simple and extended growth phase started that terminated with
substorm onset near 0500 UT.  At this time, Geotail and IMP-8 were located
in the nightside magnetosphere near the equatorial plane at -13 and -30 Re
respectively, and therefore were ideally placed for making critical
measurements in each of the three accepted phases of the substorm.  The
activity was centred over North America and the North Atlantic in the
northern hemisphere, and the Weddell Sea Sector of Antarctica in the south:
areas that are very well instrumented with magnetometers, all-sky imagers,
riometers, and the SuperDARN radars.  These high time resolution space- and
ground-based data of outstanding quality when combined with the LANL, GOES
and DMSP spacecraft data, are likely to provide a unique view in latitude,
longitude and altitude of this comparatively simple substorm. The results
from this study should be of considerable value in the identification of the
successful features and the limitations of the various competing substorms
models.  

Alan Rodger (British Antarctic Survey, Madingley Road, Cambridge, CB3 0ET,
UK, e-mail A.Rodger@BAS.AC.UK, fax 44-1223-362616) has agreed to act as
coordinator for this interval.  All those with relevant data sets are asked
to send copies of their data for the interval 00-06 UT either electronically
ofr by fax before 15 October 1995.

Co-Chairs:
Nelson Maynard (maynard@zircon.plh.af.mil)
Larry Lyons (larry_lyons@qmail2.aero.org)

Nelson Maynard