CDS, SUMER, and EIT supported JOP45 on 6 Jun 1996. The main objectives of this JOP were to study transient brightenings and active region loop flows in relation to magnetic field geometry. This JOP was coordinated with Yohkoh SXT and Mees Vector Magnetograph observations. With your permission, I would like to incorporate MDI magnetogram data into the analysis. Accordingly, I'm sending the following JOP proposal that describes our study. Sincerely, Dominic Zarro CDS Team Senior Scientist Applied Research Corporation ------------------------------------------------------------------------- Structure and Dynamics of Transient Brightenings and their Relation to Magnetic Field Geometry Contributors: G.H. Fisher, D.W. Longcope, O.H.W. Siegmund, and T.A. Kucera (SUMER), J.R. Lemen (EIT), O.H.W. Siegmund and D. Zarro (CDS), T. R. Metcalf and L. Jiao (Mees Solar Observatory) Scientific Justification Active region coronae are composed of discrete isolated loops, each defined by closed magnetic field lines. These loops, visible in UV and X-rays, are created by some localized heating mechanism (Rosner1978). Recently, Yohkoh SXT observations with high temporal resolution have revealed that at least some of these loops brighten suddenly, and stay bright for periods of minutes (Shimizu1992). These "transient brightening" TB) events may be related to microflares (Gary1995), and could account for a significant fraction of the energy deposited in an active region. We propose to study active region loops and TBs using SUMER spectroheliograms in NV and FeXII, CDS spectroheliograms in MgX, EIT images in FeXII and FeXV, and ground based vector magnetograms from the University of Hawaii's Mees Solar Observatory. Several TBs should be visible within a single 2' x 2' FOV. Because of their relatively short lifetime, these maps must be made relatively quickly. The high sensitivity and spatial resolution of SUMER, CDS and EIT will provide unprecedented detail in the study of TB's. Simultaneous imaging in lines at transition region and coronal temperatures will permit the study of the loop's structure, dynamics and energy budget. For instance, the intensity of the NV line, formed in the transition region, can in some cases be used as a pressure diagnostic for the base of a loop (Hawley1992). Doppler shifts of both coronal and transition region lines provide information on how and where energy is being deposited. Our goal will be to use this information to study the energetics and dynamics of TBs. It is also important to understand why TBs occur along specific isolated magnetic field lines. We plan to coordinate the SUMER, CDS, and EIT observations with the Imaging Vector Magnetograph (IVM) at the University of Hawaii, which creates vector magnetograms of an active region. The magnetic field should provide the key to understanding the energy source for TB's, if that source is coronal. We are particularly interested in magnetic features known as {\it separator field lines} (Gorbachev1988,Longcope1996) which play a crucial role in theories of reconnection. If TB's are caused by reconnection they should be located at or near separator field lines. References Gary, D., Hartl, M., and Shimizu, T. (1995). Transactions, AGU 1995 Fall Meeting 76 (46), SH41B. Gorbachev, V. and Somov, B. (1988). Solar Phys. 117, 77. Hawley, S.L. and Fisher, G.H. (1992). ApJ Supp 78, 565. Longcope, D.W. (1996). Solar Phys. Rosner, R., Tucker, W.H., and Vaiana, G.S. (1978). ApJ 220, 643. Shimizu, T., Tsuneta, S., Acton, L.W., Lemen, J.R., and Uchida, Y. (1992). Proc. Astron. Soc. Japan 44, L147. SUMER Observation Sequence Initial pointing A Small Bipolar Active region Slit 1 x 120 arcsec^2 Scan Area 122 xs 120 arcsec}^2 Step Size 0.78 arcsec (full step) Resulting Number of Scan Locations 160 Dwell Time 2.5 sec Duration of Scan 421 sec Line Selection NV (1242.804A) FeXII (1242.01A) Spectral Binning 50 -> 25 Estimated Reduction Factor Selection 1 x 25 x 120 px Compression Quasilog Reduction -> 25 x120 x 8 bits/scan CDS Observation Sequence Initial pointing A Small Bipolar Active region Slit 2 xs 120, arcsec^2 Scan Area 122 x 120, arcsec^2 Resulting Number of Scan Locations 61 Dwell Time 5 sec Duration of Scan 474 sec Line Selection MgX (609.79A) MgX (624.94A) Spectral Binning 20 px (no binning) Compression Truncate to 12 bits EIT Observation Sequence Initial pointing A Small Bipolar Active region Partial Frame Images FeXII (195A) FeXV (284A) Timing 195A -- several images per minute 284A -- one image every 10 minutes