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My Astrophotography shots using the ZWO Seestar S50
SIMPLE = T / file does conform to FITS standard
BITPIX = -32 / number of bits per data pixel
NAXIS = 3 / number of data axes
NAXIS1 = 1912 / length of data axis 1
NAXIS2 = 1100 / length of data axis 2
NAXIS3 = 3 / length of data axis 3
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
BZERO = 0 / offset data range to that of unsigned short
BSCALE = 1 / default scaling factor
DATE = '2024-11-06T08:09:06' / UTC date that FITS file was created
DATE-OBS= '2024-09-12T02:08:32.988358' / YYYY-MM-DDThh🇲🇲ss observation start,
INSTRUME= 'Seestar S50' / instrument name
OBSERVER= ' ' / observer name
TELESCOP= 'Seestar S50' / telescope used to acquire this image
ROWORDER= 'TOP-DOWN' / Order of the rows in image array
XPIXSZ = 2.9 / X pixel size microns
YPIXSZ = 2.9 / Y pixel size microns
XBINNING= 1 / Camera binning mode
YBINNING= 1 / Camera binning mode
FOCALLEN= 251.784 / Camera focal length
CCD-TEMP= 14.125 / CCD temp in C
EXPTIME = 10 / Exposure time [s]
STACKCNT= 38 / Stack frames
LIVETIME= 380 / Exposure time after deadtime correction
EXPSTART= 2.46057e+006 / Exposure start time (standard Julian date)
EXPEND = 2.46057e+006 / Exposure end time (standard Julian date)
FILTER = 'mixed ' / Active filter name
IMAGETYP= 'Light ' / Type of image
OBJECT = 'M 45 ' / Name of the object of interest
APERTURE= 5 / Aperture of the instrument
GAIN = 80 / Camera gain
SITELAT = 53.074 / [deg] Observation site latitude
SITELONG= -1.28779 / [deg] Observation site longitude
CTYPE1 = 'RA---TAN' / Coordinate type for the first axis
CTYPE2 = 'DEC--TAN' / Coordinate type for the second axis
CUNIT1 = 'deg ' / Unit of coordinates
CUNIT2 = 'deg ' / Unit of coordinates
EQUINOX = 2000 / Equatorial equinox
OBJCTRA = '03 46 24.966' / Image center Right Ascension (hms)
OBJCTDEC= '+24 03 11.594' / Image center Declination (dms)
RA = 56.604 / Image center Right Ascension (deg)
DEC = 24.0532 / Image center Declination (deg)
CRPIX1 = 600 / Axis1 reference pixel
CRPIX2 = 1010.5 / Axis2 reference pixel
CRVAL1 = 56.604 / Axis1 reference value (deg)
CRVAL2 = 24.0532 / Axis2 reference value (deg)
CDELT1 = -0.000659957 / X pixel size (deg)
CDELT2 = 0.000659886 / Y pixel size (deg)
PC1_1 = 0.840993 / Linear transformation matrix (1, 1)
PC1_2 = 0.540994 / Linear transformation matrix (1, 2)
PC2_1 = -0.541104 / Linear transformation matrix (2, 1)
PC2_2 = 0.840989 / Linear transformation matrix (2, 2)
PLTSOLVD= T / Siril internal solve
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY TOP-DOWN mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY TOP-DOWN mirror
HISTORY Rotation (90 deg)
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror X
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror X
END
My Astrophotography shots using the ZWO Seestar S50
SIMPLE = T / file does conform to FITS standard
BITPIX = -32 / number of bits per data pixel
NAXIS = 3 / number of data axes
NAXIS1 = 1912 / length of data axis 1
NAXIS2 = 1100 / length of data axis 2
NAXIS3 = 3 / length of data axis 3
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
BZERO = 0 / offset data range to that of unsigned short
BSCALE = 1 / default scaling factor
DATE = '2024-11-06T08:09:06' / UTC date that FITS file was created
DATE-OBS= '2024-09-12T02:08:32.988358' / YYYY-MM-DDThh🇲🇲ss observation start,
INSTRUME= 'Seestar S50' / instrument name
OBSERVER= ' ' / observer name
TELESCOP= 'Seestar S50' / telescope used to acquire this image
ROWORDER= 'TOP-DOWN' / Order of the rows in image array
XPIXSZ = 2.9 / X pixel size microns
YPIXSZ = 2.9 / Y pixel size microns
XBINNING= 1 / Camera binning mode
YBINNING= 1 / Camera binning mode
FOCALLEN= 251.784 / Camera focal length
CCD-TEMP= 14.125 / CCD temp in C
EXPTIME = 10 / Exposure time [s]
STACKCNT= 38 / Stack frames
LIVETIME= 380 / Exposure time after deadtime correction
EXPSTART= 2.46057e+006 / Exposure start time (standard Julian date)
EXPEND = 2.46057e+006 / Exposure end time (standard Julian date)
FILTER = 'mixed ' / Active filter name
IMAGETYP= 'Light ' / Type of image
OBJECT = 'M 45 ' / Name of the object of interest
APERTURE= 5 / Aperture of the instrument
GAIN = 80 / Camera gain
SITELAT = 53.074 / [deg] Observation site latitude
SITELONG= -1.28779 / [deg] Observation site longitude
CTYPE1 = 'RA---TAN' / Coordinate type for the first axis
CTYPE2 = 'DEC--TAN' / Coordinate type for the second axis
CUNIT1 = 'deg ' / Unit of coordinates
CUNIT2 = 'deg ' / Unit of coordinates
EQUINOX = 2000 / Equatorial equinox
OBJCTRA = '03 46 24.966' / Image center Right Ascension (hms)
OBJCTDEC= '+24 03 11.594' / Image center Declination (dms)
RA = 56.604 / Image center Right Ascension (deg)
DEC = 24.0532 / Image center Declination (deg)
CRPIX1 = 600 / Axis1 reference pixel
CRPIX2 = 1010.5 / Axis2 reference pixel
CRVAL1 = 56.604 / Axis1 reference value (deg)
CRVAL2 = 24.0532 / Axis2 reference value (deg)
CDELT1 = -0.000659957 / X pixel size (deg)
CDELT2 = 0.000659886 / Y pixel size (deg)
PC1_1 = 0.840993 / Linear transformation matrix (1, 1)
PC1_2 = 0.540994 / Linear transformation matrix (1, 2)
PC2_1 = -0.541104 / Linear transformation matrix (2, 1)
PC2_2 = 0.840989 / Linear transformation matrix (2, 2)
PLTSOLVD= T / Siril internal solve
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY TOP-DOWN mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY Left-right mirror
HISTORY TOP-DOWN mirror
HISTORY Rotation (90 deg)
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror X
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror Y
HISTORY Mirror X
END