[{ALLOW view jsun,eiscorestudy}] [{ALLOW edit jsun}] [Possible EIS Core Team Studies (2009-Dec-01)|http://docs.google.com/Doc?docid=0AdazsPAS3_6xZGNzZHFiOWhfMTY2ZjQ3cG1oZGQ&hl=en&invite=CIDL2K4H]\\ %%(text-align:center;font-size:25px;bold;) Available EIS Core Team Studies %% !!!Quiet Sun\\ !1. Evolution of X-ray bright point – Kamio ([kamio@linmpi.mpg.de|mailto:kamio@linmpi.mpg.de])\\ %%roundedCorners-yyyy-E3F0EE-808080 {{ - point to a quiet region with an X-ray bright point near disk centre\\ - run IUU_SLOT_136x400_Q65 (ID # 292) for context\\ - data volume: 12.1 Mbit; duration: 15m 41s\\ - run SK_QS_34x168c (ID # 295) for BP study; data volume: 2.1 Mbit; dur: 3m 49s\\ - run for 3 hours or longer \\ - SOT: support with magnetograms (3 min cadence) and Ca II H filtergrams to track evolution of magnetic fields in the photosphere\\ }} %% !2. Coronal/TR Doppler & photosphere transverse magnetic features and cancellation events – Yokoyama ([yokoyama.t@eps.s.u-tokyo.ac.jp|mailto:yokoyama.t@eps.s.u-tokyo.ac.jp])\\ %%roundedCorners-yyyy-E3F0EE-808080\\ gh * QS near the disk centre, if possible, include an XBP in FOV for alignment\\ * observation structure similar to the Muglach programme\\ * run studies in the order: three times (a) - n times (b) – three times (a)\\ * a) Study: quiet_sun_slot (#210); ** 40x512 slot image as context; volume: 1.4Mbits, \\ ** duration: 1.5min, rate:16.4kbps\\ ** three images should be taken before and after program b)\\ * b) Study: sta_loop_context_lo (#278); ** vol: 23.3Mbits, dur: 34min, rate: 34kbps\\ ** repeat n times to fit into available data volume\\ ** EXPOSURE: 30s, RASTER: 60 steps, SLIT: 2", STEP: 2" FOV: 120"x248"\\ * __SOT __support: ** FG/NFI: NaI/IV 2-wavelength filter (mandatory)\\ ** 1st priority on the high cadence (at least < 60sec).\\ ** 2nd priority on the longer coverage (>2-3hrs continuous coverage; \\ ** Interuptions by SAAs and S/C nights are OK.)\\ ** 3rd priority on the FOV (at least, larger than 100arcsec^2)\\ ** SP: fast mapping, FOV: same as FG/NFI (mandatory)\\ ** FG/BFI: CaII/G-band (lowest priority, can be omitted)\\ * __XRT __support: ** FOV: cover the same FOV as SOT Filters: low-temperature filter-pair; Cadence: <5min\\ --------------------- %% }} !3. QS Brightenings – Bewsher ([d.bewsher@rl.ac.uk|mailto:d.bewsher@rl.ac.uk]), Young \\ %%roundedCorners-yyyy-E3F0EE-808080 {{ - EIS to point at quiet Sun region near disk centre \\ - run following studies:\\ - PRY_slot_context_v3 (dur: 3min; vol: 3 Mbit) once at start of observation\\ - tr_bright_lo (dur: 6min; vol: 1.5 Mbit) repeatedly to fill available time slot\\ - PRY_slot_context_v3 again, once at end of observation\\ - run tr_bright_lo for minimum of 4h; longer if possible\\ - request SOT and XRT to observe EIS FoV: 20” x 144”\\ - SOHO/CDS involvement desirable; __advise schedule to Bewsher__\\ }} %% !4. Search for Evidence of Wave Activity in the Solar Corona - Bewsher ([dbewsher@uclan.ac.uk|mailto:dbewsher@uclan.ac.uk]), Harrison ([richard.harrison@stfc.ac.uk|mailto:richard.harrison@stfc.ac.uk])\\ run__ __rah_line_narrow; duration: 1 h 5 m 20 s; data volume: 24 Mbits\\ run for 6 hour min (~ 144Mbits); longer if possible; repeat to fill time slot\\ point to the off limb ‘quiet’ solar corona above the equator; solar y = 0; limb should be in the fov; planner should maximise the altitude observable\\ request SOT and XRT to observe EIS fov (238 x 256”)\\ __CDS involvement essential,__ __advise schedule to Bewsher – note email change__\\ \\ __5. X-ray Bright Points Onset – Brown __([dsbrown@uclan.ac.uk|mailto:dsbrown@uclan.ac.uk])__, Bewsher ([dbewsher@uclan.ac.uk|mailto:dbewsher@uclan.ac.uk]) __\\ EIS to point at quiet Sun region near disk centre \\ target QS magnetic fragments as seen by SOT with little/no emission in the corona\\ run the following studies:\\ PRY_slot_context_v2 (dur 3 min; vol 3 Mbit) once at start of observation\\ dob_bp_slit_raster (dur 33m 50s; vol 7 Mbit) or dob_bp_slot_raster (dur 2m 13s; vol 7 Mbit); repeat to fill available time slot\\ PRY_slot_context_v2 at end of observations\\ run dob_bp_****_raster for minimum 4h; run both studies on different days\\ request SOT and XRT to observe EIS FoV: 120x160" (dob_bp_slit_raster) or 160x160" (dob_bp_slot_raster)\\ TRACE/CDS involvement desirable; __advise schedule to Brown and Bewsher__\\ !6. Coronal Jets – Warren ([hwarren@nrl.navy.mil|mailto:hwarren@nrl.navy.mil]), Ugarte-Urra \\ measure DEM in jet reconnection region\\ run slot_context_lite_v1 before/after IUU_SCAN_STEPS_002 in N- polar CH\\ place raster (slit: 368") so that part covers adjacent Quiet Sun\\ run for as long as possible outside of eclipse\\ !7. Quiet Sun diagnostics/evolution - Ugarte-Urra ([iugarte@ssd5.nrl.navy.mil|mailto:iugarte@ssd5.nrl.navy.mil]) \\ point to a generic quiet Sun region (solar tracking). Two study sequences:\\ a) run NRL_QSCH_30X400_90s2 multiple times (3 at least)\\ b) run IUU_SLOT___488x512__ as context\\ run HPW019AR__1x400_45s (sit-and-stare) for 2 hours\\ run IUU_SLOT___488X512__ as context\\ Note: ideally run sequences one after the other on the same pointing. \\ sequences can run independently of each other if needed. \\ SOT magnetograms and XRT C_poly or Al_poly observations desirable,\\ matching EIS cadence (1-2 min) in sequence b)\\ !8. Coronal Hole Density Measurement – Young ([peter.young.ctr.uk@nrl.navy.mil|mailto:peter.young.ctr.uk@nrl.navy.mil]) \\ polar or equatorial CH\\ select pointing based on EIT 195 images; choose darkest part of CH\\ accurate warm pixel removal essential for CH data\\ run REGCAL071 and REGCAL072 on the same day; also context study\\ study sequence is: REGCAL071; REGCAL072; PRY_slot_context_v2 ;\\ PRY_CH_density\\ run on mid-latitude extension to N-polar CH\\ Note 1: repeat PRY_CH_density to fill time slot; vol: 20 Mbit; data rate: 5.2 kbps\\ Note 2: for large dark CH areas, stitch two or more repeats of PRY_CH_density\\ !9. Eclipse Spectral Atlas - Young ([pyoung@ssd5.nrl.navy.mil|mailto:pyoung@ssd5.nrl.navy.mil])\\ obtain reference spectra for general science during Hinode eclipse season\\ run PRY_slot_context_v3 (5 Mbits) and Eclipse_raster_v2 (99 Mbits)\\ observe any target\\ run PRY_slot_context_v3 once\\ follow by one run of Eclipse_raster_v2 (total duration: 54mins) \\ start PRY_slot_context_v3 10 mins after end of Hinode orbital night\\ repeat for consecutive day-time periods depending on available data volume\\ !10. Properties in Solar Wind Source Regions – Warren ([hwarren@nrl.navy.mil|mailto:hwarren@nrl.navy.mil]) Ko ([yko@ssd5.nrl.navy.mil|mailto:yko@ssd5.nrl.navy.mil]) \\ target: equatorial or low-latitude coronal hole within ± 400 latitude; Polar CH extensions also possible if within ± 400; observe with CH at central meridian\\ run a) YKK_EqCH_02n around the centre of the coronal hole\\ run b) YKK_EqCH_02n between the centre and East CH boundary\\ run c) YKK_EqCH_02w at E CH boundary partly covering the 'visible' CH, partly covering adjacent AR or QS to the East\\ run context raster slot_context_q50 covering FOV of the a, b and c rasters\\ default pointing: Sun center X=0", Y=0"; slit field-of-view to cover the solar equator; if CH does not reach latitude zero cover lowest latitude reached\\ if all three studies not possible in time available, run b) followed by c)\\ contact Yuan-Kuen Ko ([yko@ssd5.nrl.navy.mil|mailto:yko@ssd5.nrl.navy.mil]) to agree final pointing\\ __see Core HOP 146; use these original studies for on-disc CHs only__\\ \\ __11. Quiet sun dynamics study – Muglach __\\ - run studies in the order: three times (a) - n times (b) – three times (a)\\ - a) Study: quiet_sun_slot (#210); 40x512 slot image as context\\ - three images should be taken before and after program b)\\ - b) Study: KM-qs-study-low (#315)\\ - run in areas of quiet Sun, also plage or moderately active regions possible\\ - slit should at least be partially on the disk\\ - avoid large, well developed ARs and coronal holes \\ - study for small-scale short-term variation of QS structures in cool EIS lines.\\ - repeat n times to fit into available data volume; at least for 30 min\\ - EXPOSURE: 20s, RASTER: Scanning, 4 steps, SLIT: 2", STEP: 2"\\ FOV: 10"x464"\\ - if n = 30 for (b), data volume is 70 Mbits; run (b) for longer if volume available\\ Co-observing: - SOT:\\ 1) magnetograms in either Fe I or Na I, in 60s cadence (or less if telemetry allows). \\ SOT to run > 15 min before EIS start and at least 15 min after EIS end.\\ 2) SP scans of the target regions valuable additions but lower priority than 1.\\ 3) BFI images in G-Band can be added; lower priority than 1 and 2.\\ 4) XRT: filtergrams in the thinnest filter(s)\\ \\ \\ \\ \\ !12. Filament Evolution – Green ([lmg@mssl.ucl.ac.uk|mailto:lmg@mssl.ucl.ac.uk])\\ - Observe an on-disc filament\\ - Run \\ - cme_slot_red_lkh for approx 30 min; data vol: 18 Mbit; context\\ - cme_slit_red_lkh to fill available time; 34 min has data vol: 31 Mbit\\ - cme_slot_red_lkh for approx 30 min; data vol: 18 Mbit; context\\ __- Run if suitable quiescent filament is available on disc__\\ !13. Interchange Reconnection at CH Boundaries – Baker ([db2@mssl.ucl.ac.uk|mailto:db2@mssl.ucl.ac.uk]), Van Driel ([lidia.vandriel@obspm.fr|mailto:lidia.vandriel@obspm.fr]) search for closed/open field interactions at CH boundaries with adjacent activity\\ run dhb_polar_scan_Q90 (ID #294); \\ check with proposers for pointing details\\ __run for small closed structures at CH boundaries or inside on-disc CHs__\\ __------------------------------------------------------------------------------------------------------EIS CORE HOP 80: Polar Coronal Hole Observation – Gabriel ([alan.gabriel@ias.u-psud.fr|mailto:alan.gabriel@ias.u-psud.fr]), Harra ([lkh@mssl.ucl.ac.uk|mailto:lkh@mssl.ucl.ac.uk])__\\ \\ __EIS CORE HOP 130: Multi-temperature Full Disk Slot Scans - Ugarte-Urra ([iugarte@ssd5.nrl.navy.mil|mailto:iugarte@ssd5.nrl.navy.mil]), Brooks ([dhbrooks@ssd5.nrl.navy.mil|mailto:dhbrooks@ssd5.nrl.navy.mil]) __\\ \\ __EIS CORE HOP 146: Solar Wind Source Regions During Solar Minimum Conditions – Kuen Ko ([yko@ssd5.nrl.navy.mil|mailto:yko@ssd5.nrl.navy.mil]), Mariska ([mariska@nrl.navy.mil|mailto:mariska@nrl.navy.mil])__\\ \\ __EIS CORE HOP 137: Evolution of Network Boundary Elements: Possible Connections to the Corona – Warren ([hwarren@nrl.navy.mil|mailto:hwarren@nrl.navy.mil])__\\ __------------------------------------------------------------------------------------------------------B. Active Region, Flare, CME__\\ __Useful AR context studies for before/after main AR observation are: __\\ __PRY_slot_context_v3 or PRY_slot_contextLITE__\\ \\ __1. Active Region Studies – Warren ([hwarren@nrl.navy.mil|mailto:hwarren@nrl.navy.mil]), Mariska __\\ Studies HPW017AR_30x400_30s2, HPW018AR300x400_30s2 and \\ HPW019AR_1x400_45s2\\ select as appropriate for AR ToO\\ use PRY_slot_context___v3__ or PRY_slot_context __LITE __before/after selected HPW\\ check with Harry Warren re ASRC for raster expansion\\ !2. AR dynamics and CME watch – Young, Ugarte-Urra \\ 40” slot for large FoV, high cadence AR images in a wide Te range to i) examine loop morphology ii) detect CME initiation. \\ run either i) PRY_slot_context___v3__ (AR dynamics, includes diagnostics) or ii) PRY_slot_context__LITE__ (488”x488”; 3.5min); (CME watch, low TLM, extended hours)\\ repeat to fill available time slot \\ - run for 3 hours, preferably longer\\ !3. Active Region Studies – Warren__ ([hwarren@nrl.navy.mil|mailto:hwarren@nrl.navy.mil]),__ Ugarte-Urra ([iugarte@ssd5.nrl.navy.mil|mailto:iugarte@ssd5.nrl.navy.mil]) \\ - observe the large dispersing AR near CM\\ - run a large raster with HPW018\\ - run a fast scan with IUU_SCAN_STEPS_002 for several hours\\ \\ __4. Loop morphology and oscillations - de Moortel ([ineke@mcs.st-and.ac.uk|mailto:ineke@mcs.st-and.ac.uk]), Bewsher ([d.bewsher@rl.ac.uk|mailto:d.bewsher@rl.ac.uk]), Young __\\ relatively quiescent (non-flaring) coronal loop system either on disk or limb.\\ point to loops in the active region.\\ run PRY_footpoints_lite (dur: 28min; vol: 55 Mbit), sta_loop_slot_lo (dur: 39min; vol: 22 Mbit).\\ - study sequence is: \\ - PRY_footpoints_lite once at beginning of a period \\ - sta_loop_slot_lo at the same pointing\\ - repeat sta_loop_slot_lo to fill available time slot.\\ __run on any quiescent AR; advise schedule to de Moortel__\\ !5. Pre-flare activity monitoring - Wallace ([ajw2@mssl.ucl.ac.uk|mailto:ajw2@mssl.ucl.ac.uk])\\ point to a flaring AR to search for features that precede flares\\ run Flare0_slit_AJW; (dur: 50m 34s; vol: 2.9 Mbits; size: 180” x 320”)\\ scanning raster; slit: 2”; step:2”; exposure: 30s; 89 steps.\\ run repeatedly on a flaring AR to fill available time allocation.\\ !6. Search for Active Region outflows – Culhane ([jlc@mssl.ucl.ac.uk|mailto:jlc@mssl.ucl.ac.uk]), Harra ([lkh@mssl.ucl.ac.uk|mailto:lkh@mssl.ucl.ac.uk])\\ - observe AR outflows at opposite boundaries of the large dispersing AR near CM\\ - run HPW015_DETAILED_MAP_1_45s_200x360 twice; two separate pointings\\ - total data volume: 662 Mbits; duration: 2 x 2h 44 m or 5h 28 m total\\ - __check pointing positions with proposers__\\ !7. AR Temperature Diagnostic – Mason ([hm11@damtp.cam.ac.uk|mailto:hm11@damtp.cam.ac.uk])\\ run cam_ar_temp_lite_v2\\ target: temperature structure of active regions on the limb\\ centre raster at the active region core.\\ exposure time: 30s; raster: scanning; slit: 2"; step Size: 2", FOV: 360"X400";\\ raster duration: 1h40m46s \\ !8. High cadence observations of AR transient brightenings and microflares - Mason ([hm11@damtp.cam.ac.uk|mailto:hm11@damtp.cam.ac.uk])\\ run cam_artb_lite_v2\\ run on AR to study transient brightenings and microflares at very high cadence\\ raster centre should be at polarity inversion line.\\ raster: scanning; slit: 2", step size: 2"; FOV: 40"X120"\\ raster duration: 4m32 seconds\\ run as many times as possible and at least for 3-4 hours continuous \\ \\ \\ __9. CME onsets - Bewsher ([danielle.bewsher@stfc.ac.uk|mailto:danielle.bewsher@stfc.ac.uk]), Harrison__\\ algorithm to detect CME-related dimming\\ point above limb __at AR if it develops __with part of limb in FoV\\ if AR present, centre raster y-direction on the AR; null evaluation in AR absence\\ run cmeo_slit_lo; minimum 5 rasters; Duration: 4.2 h; Volume: 13 Mbit __or__\\ run cmeo_slot_lo; min duration: 5 h; Volume: 10 Mbit\\ algorithm uses difference imaging so minimum durations __must__ be available\\ !10. CORE EIS Flare Study – Milligan ([ryan.o.milligan@nasa.gov|mailto:ryan.o.milligan@nasa.gov])\\ run FLR001_flare_study; \\ exposure: 5s; raster: scanning; slit: 2”; step: 2”; FoV: 80” x 120”; raster time: 5m\\ run for 2 hr; data volume: 36 Mbit\\ target: any AR with significant flare probability\\ !!!C. Test and Calibration Studies \\ __1. EIS slit calibration – Young ([pyoung@ssd5.nrl.navy.mil|mailto:pyoung@ssd5.nrl.navy.mil])__\\ - Obtain co-spatial data in the 1", 2" and 40" slits for various calibration tests (slit \\ widths, tilt, intensity calibration)\\ - run CALIB_slit_slot_v1\\ - study includes three separate rasters; each must be individually pointed\\ - point off-limb above the quiet Sun at the equator (either limb)\\ - make two separate adjacent entries of calib_slit_slot_v1 on the timeline\\ - select Solar-X position 50-60” above limb; same for each of the rasters in both \\ study entries\\ - select Y position with the YIP input rather than the solar-Y position\\ - set the YIP entry to 511 for each of the three rasters in first study entry \\ - for the second study entry, set YIP to 1 for each of the three rasters\\ __- __data volume: 54 Mbits.\\ \\ __2. EIS velocity calibration – Kamio ([kamio@linmpi.mpg.de|mailto:kamio@linmpi.mpg.de])__\\ __- __Determine__ __the slit tilt and curvature in full Y height for velocity calibration\\ - execute raster scans at three positions with 1" and 2" slits\\ - run ID 375 SK_DEEP_5x512_SLIT1 – the 1" slit study, with Y initial positions\\ #1 YIP=1; #2 YIP=256; #3 YIP=512\\ - run ID 376 SK_DEEP_10x512_SLIT2 – the 2" slit study, with Y initial positions\\ #4 YIP=1; #5 YIP=256; #6 YIP=512\\ - six consecutive rasters require total time ~ 60min and data volume ~ 45Mbits\\ - target: quiet region near disk center (0", 0"); shift EIS FOV ±200" in E-W \\ direction to avoid ARs; do not run if ARs in target area;\\ - keep the same mirror initial position (MIP) for all rasters.\\ \\ \\