MM#009 Default Target
Dear Collaborators,
The target filament located in the northern polar
zone has entered a mostly stable quiescent phase.
The target will switch to a recently emerged tiny
C24 region. The region has moderately bright
H-alpha plage and has added a couple of new
pores since the last message. Solar flare activity is
expected to continue at an extremely low level for
the next 24 hour period.
The position of the target on May 25 at 06:45 UT is:
N13E55 (Solar X = -758", Solar Y = 228")
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
MM#009 Default Target
Dear Collaborators,
Solar minimum conditions continue. The sun is blank
except for a few filaments and a tiny C24 plage that
recently emerged (N14E68). The plage currently
has a tiny leading polarity pore.The target filament
located in the southern polar zone disappeared since
the last message. The new target is a slightly active
filament located in the northern polar zone. It is possible
the filament will disappear in the next 24 hour period.
The approximate position of the target on May 24 at 06:45 UT is:
N47E07 (Solar X = -078", Solar Y = 713")
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
MM#009 Default Target
Dear Collaborators,
The visible solar disk continues to be spotless and plageless.
The target today will be an active filament located in the
southern polar zone.The filament is likely to disappear in
the next 24 hour period.
The approximate position of the target on May 23 at 07:15 UT is:
S40E06 (Solar X = -076", Solar Y = -589")
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
MM#009 Default Target
Dear Collaborators,
The current visible solar disk is devoid of sunspots, plages,
and any noteworthy filaments/prominences. There is no
default target region available today. Quiet Sun conditions
are expected to continue for the next 24 hour period.
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
MM#009 Default Target
Dear Collaborators,
The current visible solar disk is spotless, plageless, and
does not have any noteworthy filaments or prominences.
Target region NOAA 2741 is now well beyond the
northwestern limb. There is no default target region
available. The quiet Sun conditions are expected to
continue for the next 24 hour period.
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
MM#009 Default Target
Dear Collaborators,
Solar flare activity is extremely low. The current
visible solar disk is spotless and plageless. Target
region NOAA 2741 is now located beyond the
northwestern limb where faint prominence material
associated with the region is still visible. No
significant solar flare activity expected anytime soon.
The position of NOAA 2741 on May 20 at 13:30 UT is:
N05W91 (Solar X = 944", Solar Y = 081")
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Bill Marquette (Helio Research)
Dear Collaborators,
Solar activity remains at very low levels. NOAA 12741 has been
quiescent since the last message and the ERF in the northwest quadrant
has already decayed. NOAA 12741 is now on the western limb and shall
remain the target region for a further 24 hours. No change in activity
expected at this time.
The position of NOAA 12741 on 19-May-2019 at 13:30 UT is:
N05W91, ( 944", 81" )
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Ryan Milligan (University of Glasgow)
Dear Collaborators,
Quiet-Sun conditions continue. NOAA 12741 has been quiescent since the
last message despite producing a filament eruption from the western
limb. There is also a small, emerging flux region in the northwest
quadrant that might bring some low-level activity over the next few
days. However, NOAA 12741 shall remain the target region for a further
24 hours, and may produce an isolated low-level event before west limb
passage.
The position of NOAA 12741 on 8-May-2019 at 13:30 UT is:
N05W78, ( 924", 90" )
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Ryan Milligan (University of Glasgow)
Dear Collaborators,
Solar X-ray flux has remained at background levels since the last
message. NOAA 12741 has remained quiescent and retains its alpha
configuration as it approaches the western limb. Slight possibility of
an isolated low-level event over the next 24 hours.
The position of NOAA 12741 on 17-May-2019 at 13:00 UT is:
N05W65, ( 857", 99" )
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Ryan Milligan (University of Glasgow)
Dear Collaborators,
The target region NOAA 12741 has continued to produce B-level activity
since the last message, as well as a C2.0 flare at 19:15 UT yesterday.
The region itself remains unchanged in terms of size and complexity,
but may produce additional low-level events over the next 24 hours.
The position of NOAA 12741 on 6-May-2019 at 13:00 UT is:
N05W52, ( 746", 108" )
See http://www.SolarMonitor.org for images and
http://solar.physics.montana.edu/max_millennium/ops/observing.shtml
for a description of the current Max Millennium Observing Plan.
Regards,
Ryan Milligan (University of Glasgow)