2007-12-15T19:36:55.000Z http://sot.lmsal.com Mr. Sam Freeland Lockheed Martin Solar and Astrophysics Laboratory (LMSAL) http://www.lmsal.com Lockheed Martin Advanced Tech Center, 3251 Hanover Rd, O/ADBS, B/252, Palo Alto, CA 94304 null null HINODE XRT ARIKAWA, Yusuke STERLING, Alphonse SHIN, Junho and McKENZIE, David 0 AR Tracking AR AR 10978 8 371.308 -129.112 528.415 528.415 2007-12-13T00:26:11.000Z 2007-12-13T17:53:25.000Z 371.308 -129.112 CORE: SOT continuous magnetic field observations for investigating mechanisms responsible for XBPs and QS dynamics AR_Tracking_3 Daily Note: (AR has higher consideration this week over QS studies currently being considered.) XRT turns on flare detection on 12 Dec at 10:40 UT. SOT set to receive flare flag at 10:45 UT 12 Dec. SOT has no table upload today. Instruments to consider doing coordinated high-cadence bursts of observations while AR is near disk center. XRT * Target of opportunity, Active Region thermal/DEM studies. * Support HOP 53 (QS and XBP) * Quiet limb studies, _only if_ no active regions are present on the disk. EIS * Observations of active region 10978, which is currently on the limb. Several observing modes are planned - large field of view rasters (e.g., 400""x400"") for measurements of the temperature and density structure of the active region and full active region modeling. - slot raster movies, 148""x400"" at 60s cadence, for tracking the evolution of active region loops. - sit and stare, 1""x400"" at 30s cadence, for the study of individual heating events. * HOP 53 - SOT continuous magnetic field observations for XBPs and QS dynamics * Off limb quiet Sun studies - Raster over the limb to study the variation of temperature and density with height. - Sit and stare observations at several heights to accumulate good statistics. * Disk coronal hole studies - There appears to be a small disk coronal hole in the vicinity of AT 10978 (?). There are, however, no large polar coronal holes. A large field of view raster over this region would be interesting. SOT: - SOT has some engineering and science observations we request at disk center and near N/S pole this week, if there is no active region present. - HOP 53: CORE XBP study (Shimizu); Request to XRT HOP Number 0053: * A test of HOP53 (XBP observation) performed from 11/30 18:22:30 to 11/30 18:50:24. The following XOBs can be used for this purpose. * XOB #1473: QS thermal -FOV384x256 -AEC1 and AEC3 (single-high) * XOB #1474: QS thermal -FOV384x256 -AEC1 and AEC3 (pair-med) Both for a test of HOP53.; Other Instruments: NONE; Scientific Objectives: Previous magnetic-field observations (/w 1-2 arcsec spatial resolution, longitudinal only) shows that magnetic cancellation is involved in many XBPs and magnetic emergence in a limited number of XBPs (e.g., Harvey et al.) Priest and Parnell (1994) proposed a magnetic canceling model for explaining the overall evolution of XBPs. However, this model has not yet been confirmed with observations. SOT has not yet performed magnetic-field observations suitable for investigating mechanisms responsible for XBPs (see Kotoku et al. 2007 PASJ). The biggest problem in the observations made so far with Hinode is that continuous SOT observations are available only in a few - several hours, which is much shorter than the lifetime of XBPs (8 hrs for small typical XBPs, 48hrs for bigger XBPs) and time-scale of small-scale magnetic field evolution (Schrijver et al. 1998). We are lack of observations with continuous a-few days tracking of a quiet region with Hinode SOT coodinated with XRT and EIS.