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)
Dear RHESSI Collaborators,
Solar activity is at an extremely low level. The visible disk remains
spotless, with no flares since the last message. The target will stay
on the extended plage region in the North West quadrant as it rotates
up to the limb. No significant flaring activity is expected over the
following 24-hour period.
The approximate position of this region on 1-Jul-2018 at 12:00 UT is:
N17W71, ( 856", 261" )
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. Spotless conditions
continue on the solar disk, with no flares since the last message.
The target will switch to an extended plage region in the North
West quadrant that harbours a small inactive filament along its
magnetic polarity separation line. No significant flare activity
is expected in the next 24 hours.
The approximate position of this region on 30-Jun-2018 at 13:00 UT is:
N17W59, ( 775", 253" )
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
clear of spots and no flares have been seen since the last message.
The plage region that was NOAA 12715 has now rotated over the North
West limb - its location of departure will remain the target for a
final 24 hours. No significant flare activity is expected over the
following 24-hour period.
The approximate position of this region on 29-Jun-2018 at 12:00 UT is:
N07W90, ( 936", 115" )
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 very low. NOAA 12715 has now decayed to
plage as it rotates up to the North West limb, leaving the solar disk
devoid of spots. This region will remain as the target. No flares have
been observed since the last message. No significant flare activity is
expected over the next 24 hours.
The approximate position of this region on 28-Jun-2018 at 13:00 UT is:
N07W81, ( 926", 109" )
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 a very low level. NOAA 12715 has continued in
its decay phase over the past 24 hours, now being classified as an
alpha/H-type sunspot group. This region was the source of the only
two flare events since the last message, the largest being a B2.3
on 27-Jun-2018 at 05:17 UT. More B-class activity is possible over
the following 24-hour period.
The position of NOAA 12715 on 27-Jun-2018 at 15:00 UT is:
N07W69, ( 877”, 101” )
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 very low. NOAA 12715 decayed further
in the past 24 hours and is now classified as a beta-gamma/C-type
sunspot group. No flares have been observed since the last message.
B-class flares are possible over the next 24 hours.
The position of NOAA 12715 on 26-Jun-2018 at 12:30 UT is:
N08W55, ( 767", 110" )
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 a very low level. NOAA 12715 has continued to decay
slightly over the past 24 hours, now classified as a beta/D-type sunspot
group. This region has remained B-class flare productive since the last
message. Further B-class activity is probable over the following 24-hour
period.
The position of NOAA 12715 on 25-Jun-2018 at 12:30 UT is:
N07W41, ( 616", 88" )
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)