Dear RHESSI Collaborators,
The level of solar activity is extremely low. Spotless conditions
continue on the visible solar disk. No flares have occurred since
the last message. Low B-class flares are possible from the target
plage region in the following 24-hour period.
The approximate position of this region on 11-Jul-2018 at 12:00 UT is:
N05E44, ( -654", 35" )
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,
Shaun Bloomfield (Northumbria University)
Dear RHESSI Collaborators,
Solar activity is at an extremely low level. The solar disk remains
spotless, so the target will continue to be the plage region in the
North East quadrant. No flares have occurred since the last message.
B-class flares are possible over the next 24 hours with a very small
chance of a low C-class flare.
The approximate position of this region on 10-Jul-2018 at 10:00 UT is:
N05E58, ( -799", 49" )
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,
Shaun Bloomfield (Northumbria University)
Dear RHESSI Collaborators,
The level of solar activity is extremely low. The target region has
rotated further onto the visible disk, revealing that this region
harbours no spots. No flares have occurred since the last message.
B-class flares are possible over the following 24-hour period with
a small chance of another low C-class flare.
The approximate position of this region on 9-Jul-2018 at 13:00 UT is:
N05E72, ( -895", 63" )
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,
Shaun Bloomfield (Northumbria University)
Dear RHESSI Collaborators,
The target region on the eastern limb has remained quiescent since the
last message, producing only a few B1 level events. The region remains
unnumbered and unclassified but may produce further low-level
activity, and possibly another isolated C-class flare, over the next
24 hours.
The approximate position of the target region on 8-Jul-2018 at 14:33 UT is:
N04E80, ( -926", 55" )
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 RHESSI Collaborators,
The target region on the eastern limb was the source of a C1.6 flare
at 19:41 UT yesterday. The region remains unnumbered and its magnetic
configuration is unknown. It shall remain the target region with a
chance of further low-to-intermediate level activity as it rotates on
to the visible disk.
The approximate position of the target region on 7-Jul-2018 at 07:10 UT is:
N07E83, ( -929", 107" )
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 RHESSI Collaborators,
The small spotless region along the western equator has decayed since
producing a CME yesterday, and has remained quiescent. A new active
region is rotating into view from behind the eastern limb; likely the
return of NOAA 12713. This shall be the new target region although no
significant change in activity is expected over the next 24 hours.
The approximate position of the target region on 6-Jul-2018 at 14:33 UT is:
N05E89, ( -940", 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 RHESSI Collaborators,
The small spotless target region along the western equator has not
flared since the last message. However it does appear to have produced
an EUV wave with an associated dimming, which may be related to a CME
currently visible in LASCO/C2 images. It shall remain the target
region for a further 24 hours, and may produce an isolated low-level
event if it continues to develop.
The approximate position of the target region on 5-Jul-2018 at 19:10 UT is:
N00W40, ( 610", -42" )
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 RHESSI Collaborators,
Solar activity has remained at background levels since the last
message. The small equatorial bipolar EFR remains spotless but shall
continue to be the target region for the next 24 hours. No increase in
activity expected.
The approximate position of the target region on 4-Jul-2018 at 14:17 UT is:
N00W23, ( 364", -49" )
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 RHESSI Collaborators,
Quiet-Sun conditions continue. The new target region shall be the
emerging flux region close to disk center. No change in activity
expected over the next 24 hours.
The approximate position of the target region on 3-Jul-2018 at 19:10 UT is:
N00W12, ( 198", -51" )
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 RHESSI Collaborators,
The level of solar activity remains very low, with X-ray flux
remaining steady at the mid A-level. The target region shall continue
to be the decaying plage region approaching the northwestern limb. No
change in activity is expected at this time.
The approximate position of the target region on 2-Jul-2018 at 07:10 UT is:
N17W81, ( 893", 269" )
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)