SOTSP: HOP12 for Hida
2007-08-07T05:00:38 to 2007-08-07T05:19:35
Science Goal: Cooperative Observations between Hida Observatory and; Hinode Satellite - 1. Emerging Flux Regions 2. Cool Jets 3. Ellerman Bombs
Program: Fast map 100 arcsec repeat
Target: Active Region
xcen=-464 ycen=-171
Instrument: SOTSP
HOP/JOP: 12
Description:
Daily Note and User Entry: HOP12 (22 - 3 UT, can be extended to 6 UT if no conflict). EIS: 1) plan to load new MHC s/w from EEPROM to RAM today. andnbsp
No EIS obs during plan-period uploaded today. (TBC.) XRT: CCD Bakeout
Request to SOT: 1a.
* G-band Filtergraph: ???@
Observation of the arch-filaments on the photosphere, ???@
measurement of the horizontal flow (by LCT) around EFR/AFS. ???@
Time cadence: 15 sec ???@
Duration: as long as possible ???@
* Ca Filtergraph: ???@
Observation of the arch-filaments in the chromosphere ???@
Time cadence: about 30 sec ???@
Duration: as long as possible ???@
* SP: ???@
Measurement of the time-evolution of magnetic flux and Doppler ???@
velocity around the EFR/AFS. ???@
Time cadence: 180 sec ???@
Scan step: 0.3 - 0.6 arcsec/step ???@
Scan width: 20 - 60 arcsec (wider than the size of EFR) ???@
Duration: as long as possible 1b. ???@
* Ca Filtergraph: ???@
Observation of the chromospheric gas motion on the footpoint of ???@
magnetic filament. ???@
Time cadence: 8 sec ???@
* G-band Filtergraph: ???@
Detection of the photospheric bright point (G-band bright point). ???@
Time cadence: 8 sec ???@
* SP: ???@
Distinction of the footpoint of magnetic filament. ???@
Time cadence: 30 sec ???@
Scan step: 0.3 - 0.6 arcsec/step ???@
Scan width: about 20 - 30 arcsec 1c. ???@
* G-band Filtergraph: ???@
Detection and distinction of the footpoint of magnetic flux tube, ???@
measurement of the horizontal flow on the photosphere ???@
Time cadence: 8 sec ???@ ???@
* Ca Filtergraph: ???@
Observation of the chromospheric gas motion on the footpoint of ???@
magnetic flux tube ???@
Time cadence: 8 sec ???@ ???@
* SP: ???@
Measurement of the time-evolution of magnetic flux and Doppler ???@
velocity around/in the flux tube. ???@
Time cadence: <
30 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible 2. ???@
Ca and
G-band Filtergraph: ???@
Detection of jets around the photosphere and chromosphere ???@
Time cadence: 10 sec (respectively) ???@
SP: ???@
Observation of the photospheric magnetic field configurations around the jets ???@
Time cadence: 60 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible 3. ???@
* SP: ???@
Obtaining photospheric magnetic field and Doppler velocity ???@
around/at Ellerman bomb ???@
Time cadence: 60 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible ???@
* Ca H Filtergram: ???@
Observing shape and time evolution of the Ellerman bomb ???@
Time cadence: 8 sec
Scientific Objectives: 1a. Rise velocity of emerging loops 1b. Shock waves just below the arch filaments in emerging flux regions 1c. Evolution of magnetic element at the footpoint of emerging flux region 2. Detection of Alfven wave generation 3. Observation of reconnection jets and X-ray signatures in the corona
Other Instruments:
Daily Note and User Entry: HOP12 (22 - 3 UT, can be extended to 6 UT if no conflict). EIS: 1) plan to load new MHC s/w from EEPROM to RAM today. andnbsp
No EIS obs during plan-period uploaded today. (TBC.) XRT: CCD Bakeout
Request to SOT: 1a.
* G-band Filtergraph: ???@
Observation of the arch-filaments on the photosphere, ???@
measurement of the horizontal flow (by LCT) around EFR/AFS. ???@
Time cadence: 15 sec ???@
Duration: as long as possible ???@
* Ca Filtergraph: ???@
Observation of the arch-filaments in the chromosphere ???@
Time cadence: about 30 sec ???@
Duration: as long as possible ???@
* SP: ???@
Measurement of the time-evolution of magnetic flux and Doppler ???@
velocity around the EFR/AFS. ???@
Time cadence: 180 sec ???@
Scan step: 0.3 - 0.6 arcsec/step ???@
Scan width: 20 - 60 arcsec (wider than the size of EFR) ???@
Duration: as long as possible 1b. ???@
* Ca Filtergraph: ???@
Observation of the chromospheric gas motion on the footpoint of ???@
magnetic filament. ???@
Time cadence: 8 sec ???@
* G-band Filtergraph: ???@
Detection of the photospheric bright point (G-band bright point). ???@
Time cadence: 8 sec ???@
* SP: ???@
Distinction of the footpoint of magnetic filament. ???@
Time cadence: 30 sec ???@
Scan step: 0.3 - 0.6 arcsec/step ???@
Scan width: about 20 - 30 arcsec 1c. ???@
* G-band Filtergraph: ???@
Detection and distinction of the footpoint of magnetic flux tube, ???@
measurement of the horizontal flow on the photosphere ???@
Time cadence: 8 sec ???@ ???@
* Ca Filtergraph: ???@
Observation of the chromospheric gas motion on the footpoint of ???@
magnetic flux tube ???@
Time cadence: 8 sec ???@ ???@
* SP: ???@
Measurement of the time-evolution of magnetic flux and Doppler ???@
velocity around/in the flux tube. ???@
Time cadence: <
30 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible 2. ???@
Ca and
G-band Filtergraph: ???@
Detection of jets around the photosphere and chromosphere ???@
Time cadence: 10 sec (respectively) ???@
SP: ???@
Observation of the photospheric magnetic field configurations around the jets ???@
Time cadence: 60 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible 3. ???@
* SP: ???@
Obtaining photospheric magnetic field and Doppler velocity ???@
around/at Ellerman bomb ???@
Time cadence: 60 sec ???@
Scan step: 0.3 - 0.6 arcsec ???@
Scan width: as wide as possible ???@
* Ca H Filtergram: ???@
Observing shape and time evolution of the Ellerman bomb ???@
Time cadence: 8 sec
Scientific Objectives: 1a. Rise velocity of emerging loops 1b. Shock waves just below the arch filaments in emerging flux regions 1c. Evolution of magnetic element at the footpoint of emerging flux region 2. Detection of Alfven wave generation 3. Observation of reconnection jets and X-ray signatures in the corona
Other Instruments: