SIMPLE = T / Written by IDL: Wed Sep 1 08:29:56 2010 BITPIX = -32 / IEEE single precision floating point NAXIS = 2 / number of data axes EXTEND = T / FITS dataset may contain extensions COMMENT FITS (Flexible Image Transport System) format is defined in 'Astronomy COMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H CTYPE1 = 'E-W ARCS' CTYPE2 = 'N-S ARCS' CRVAL1 = 280 CRVAL2 = 375 CRPIX1 = 1024 CRPIX2 = 1024 CDELT1 = 0.036328125 / image scale arcsec/pixel CDELT2 = 0.036328125 / image scale arcsec/pixel XCEN = 0. YCEN = 0. ORIGIN = 'BBSO ' / Big Bear Solar Observatory INSTRUME= 'PCO.2000-2' TELESCOP= 'NST ' / NST Coude room TARGET = 'AR1102 ' IMAGETYP= 'image ' EXPOSURE= 1. / Exposure time, milliseconds SOLAR_P = 180 SOLAR_P0= 20.7034090230653 / Solar P angle, degrees CCDTEMP = -25. / CCD temperature, C SET_ID = 6 OBSERVER= 'rjf ' COMMENT some comment COMMENT Run by vayur; Used 70 best images COMMENT ; RECONSTRUCTION INFORMATION: COMMENT reconstruction_method = 'TC' COMMENT target_subfieldsize_arcsec = 6.000000 COMMENT subfieldsizex_arcsec = 9.292800 COMMENT subfieldsizex_pixel = 256 COMMENT nrofsubfieldsx = 13 COMMENT borderoffsetx = 28 COMMENT subfieldsizey_arcsec = 9.292800 COMMENT subfieldsizey_pixel = 256 COMMENT nrofsubfieldsy = 13 COMMENT borderoffsety = 28 COMMENT phasevecradius_percentofdl = 0.800000 COMMENT phaseveclimit1_percentofdl = 0.100000 COMMENT phaseveclimit2_percentofdl = 0.100000 COMMENT iterations = 5 COMMENT SNR_bispectrumthreshold = 0.900000 COMMENT SNR_weightingexponent = 1.300000 COMMENT subfieldapodisation_percent = 0.300000 COMMENT filtercutoff_percent = 0.800000 COMMENT noise_filter_used = 1 NAXIS1 = 1849 /Number of positions along axis 1 NAXIS2 = 1849 /Number of positions along axis 2 COMMENT9= 'Original file' /bbso_tio_pcoi_20100830_183041z99.fts ROI_X0 = 100 /coord of ROI; original size=2*CRPIX1 ROI_Y0 = 100 /coord of ROI; original size=2*CRPIX2 ROI_X1 = 1948 /coord of ROI; original size=2*CRPIX1 ROI_Y1 = 1948 /coord of ROI; original size=2*CRPIX2 TIME-OBS= '18:30:42.0' /Time of reconstructed image DATE = '2010-08-30T18:30:41' /Date and Time of reconstructed image DATE-OBS= '2010-08-30' /Date of reconstructed image WAVE = 'tio ' /ha-Halpha, b/r - blue/red; "125"-1.25A END