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View allAll Photos Tagged livetiming
Marcio Rangel Brasil Festival 2008 by Brasilfestival Bologna Italia

Foto Ventimiglia www.livetime.it
Chevy Chase in Lexington, Ky by Al

OLYMPUS DIGITAL CAMERA

Mailbox by ron.boost
More snow by ron.boost

Smith Street
DSC_0424 by wwntopdog

Barbara and Larry Howell accept Livetime Acheivement Award
Q2 - That will do nicely, just need a repeat in Super pole at 5.10pm local time. Car feels hooked up, let's hope it stays dry. Follow us live, car #2 https://livetiming.tracktime.info/nurburgring#screen-results #NBR24h #nbr24hr #nbr24h2015 #nbr24hours # by Adam Christodoulou
NGC434 by Angel Chacon

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 3840 / length of data axis 1

NAXIS2 = 2160 / 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 = '2023-12-05T14:35:47' / UTC date that FITS file was created

DATE-OBS= '2023-11-27T22:58:03.574000' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'ZWO ASI585MC' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'AZ-GTi Equatorial WiFi' / 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= 420 / Camera focal length

CCD-TEMP= 6.6 / CCD temp in C

EXPTIME = 100 / Exposure time [s]

STACKCNT= 27 / Stack frames

LIVETIME= 2700 / Exposure time after deadtime correction

EXPSTART= 2.46028e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46028e+06 / Exposure end time (standard Julian date)

FILTER = 'mixed ' / Active filter name

IMAGETYP= 'Light Frame' / Type of image

OBJECT = 'IC 434 ' / Name of the object of interest

GAIN = 252 / Camera gain

OFFSET = 50 / Camera offset

SITELAT = 38.3633 / [deg] Observation site latitude

SITELONG= -0.678034 / [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 = ' 5 40 39.68' / Image center Right Ascension (hms)

OBJCTDEC= '-2 17 33.16' / Image center Declination (dms)

RA = 85.1653 / Image center Right Ascension (deg)

DEC = -2.29255 / Image center Declination (deg)

CRPIX1 = 1920 / Axis1 reference pixel

CRPIX2 = 1080 / Axis2 reference pixel

CRVAL1 = 85.1653 / Axis1 reference value (deg)

CRVAL2 = -2.29255 / Axis2 reference value (deg)

CDELT1 = 0.000395681 / X pixel size (deg)

CDELT2 = 0.000395681 / Y pixel size (deg)

PC1_1 = -0.0100807 / Linear transformation matrix (1, 1)

PC1_2 = -0.999949 / Linear transformation matrix (1, 2)

PC2_1 = 0.999949 / Linear transformation matrix (2, 1)

PC2_2 = -0.0100807 / Linear transformation matrix (2, 2)

AIRMASS = 1.44323 / Airmass

HISTORY Mejora de la saturación: (cantidad=0.15)

HISTORY Histograma Transf. (mid=0.207, lo=0.000, hi=1.000)

END
Weatherevent of a lifetime 006 by ron.boost
M16 2 hrs by Peter

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 1027 / length of data axis 1

NAXIS2 = 1744 / 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

MIPS-FHI= 1 / Upper visualization cutoff

MIPS-FLO= 0 / Lower visualization cutoff

BZERO = 0 / offset data range to that of unsigned short

BSCALE = 1 / default scaling factor

DATE = '2024-06-27T19:28:40' / UTC date that FITS file was created

DATE-OBS= '2024-06-26T22:24:32.973898' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'Seestar S50' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'Seestar S50' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / 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= 251.71 / Camera focal length

CCD-TEMP= 26.4375 / CCD temp in C

EXPTIME = 10 / Exposure time [s]

STACKCNT= 727 / Stack frames

LIVETIME= 7270 / Exposure time after deadtime correction

EXPSTART= 2.46049e+006 / Exposure start time (standard Julian date)

EXPEND = 2.46049e+006 / Exposure end time (standard Julian date)

FILTER = 'mixed ' / Active filter name

IMAGETYP= 'Light ' / Type of image

OBJECT = 'M 16 ' / Name of the object of interest

APERTURE= 5 / Aperture of the instrument

GAIN = 80 / Camera gain

SITELAT = 52.4539 / [deg] Observation site latitude

SITELONG= 0.293333 / [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 = '18 19 0.795' / Image center Right Ascension (hms)

OBJCTDEC= '-13 49 14.079' / Image center Declination (dms)

RA = 274.753 / Image center Right Ascension (deg)

DEC = -13.8206 / Image center Declination (deg)

CRPIX1 = 513.5 / Axis1 reference pixel

CRPIX2 = 872 / Axis2 reference pixel

CRVAL1 = 274.753 / Axis1 reference value (deg)

CRVAL2 = -13.8206 / Axis2 reference value (deg)

CDELT1 = -0.000659703 / X pixel size (deg)

CDELT2 = 0.00066053 / Y pixel size (deg)

PC1_1 = 0.998285 / Linear transformation matrix (1, 1)

PC1_2 = 0.0585343 / Linear transformation matrix (1, 2)

PC2_1 = -0.0581193 / Linear transformation matrix (2, 1)

PC2_2 = 0.99831 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

END

 
Hartland Fireworks by Al
Weatherevent of a lifetime 011 by ron.boost
by Barry Zee

London Camera Exchange nationwide photo specialist bring you an exclusive photowalk through the picturesque streets of Chichester!

 

Today Olympus expert Jez Sugars for his latest street photography walk, on which you’ll be able to weave your way through the historical city, soaking up a heritage that dates back to Roman times. Whether you’re new to photography or already a keen enthusiast, our photowalk experience will provide inspiration and creativity in spades. Don’t miss this opportunity to get hands on with the latest & greatest Olympus cameras and lenses, as well as getting to know the kit you already own.

 

During the walk, Jez will be demonstrating the features unique to the OM-D E-M1 Mark II, including ND with livetime, High res mode, and In-camera focus stacking. Book to attend and you’ll be rewarded with the chance to pick up tips and advice first hand from our resident expert, as well as in-store staff, all enabling you to develop your skills and broaden your knowledge.

 

The date to etch into your diary is Saturday 28th July 2018, when we will be running two walks; the first from 10:00-12:30 and the second from 13:00-15:30.

Ticket price: £10 inc. VAT
DSC_1425 by gholzer
08: F1 Timing Full Timing Data view by Soft Pauer
Marcia Brandao all'8° Festival brasiliano by Brasilfestival Bologna Italia

Brasil festival 2009 www.livetime.it

IMG_0855 by gholzer
M57 - backyard attempt by R Potter

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 2892 / length of data axis 1

NAXIS2 = 2896 / 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 = '2023-07-29T00:40:11' / UTC date that FITS file was created

DATE-OBS= '2023-07-28T06:33:42.528000' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'ZWO ASI533MC Pro' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'EvoStar 72ED' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 3.76 / X pixel size microns

YPIXSZ = 3.76 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 430 / Camera focal length

CCD-TEMP= -5 / CCD temp in C

EXPTIME = 60 / Exposure time [s]

STACKCNT= 90 / Stack frames

LIVETIME= 5400 / Exposure time after deadtime correction

EXPSTART= 2.46015e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46015e+06 / Exposure end time (standard Julian date)

FILTER = 'RGB ' / Active filter name

IMAGETYP= 'LIGHT ' / Type of image

OBJECT = 'Ring Nebula' / Name of the object of interest

CVF = 1.0056 / Conversion factor (e-/adu)

GAIN = 100 / Camera gain

OFF
FOTO SI LIVETIME AC by matafilm

foto by Popoy

 
thirteen seconds by dolanh

A bit underexposed. Just playing with Live Bulb, which is one of the coolest things ever.
edi1 by george

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 2872 / length of data axis 1

NAXIS2 = 2103 / 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 = '2023-03-17T06:31:19' / UTC date that FITS file was created

DATE-OBS= '2022-03-17T01:20:11' / YYYY-MM-DDThh🇲🇲ss observation start, UT

INSTRUME= 'Canon EOS 1300D' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= ' ' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 4.29 / X pixel size microns

YPIXSZ = 4.29 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 52.785 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

EXPTIME = 2 / Exposure time [s]

STACKCNT= 174 / Stack frames

LIVETIME= 347 / Exposure time after deadtime correction

APERTURE= 5.6 / Aperture of the instrument

ISOSPEED= 1600 / ISO camera setting

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 = '05 36 10.101' / Image center Right Ascension (hms)

OBJCTDEC= '-01 10 33.101' / Image center Declination (dms)

RA = 84.0421 / Image center Right Ascension (deg)

DEC = -1.17586 / Image center Declination (deg)

CRPIX1 = 1436 / Axis1 reference pixel

CRPIX2 = 1051.5 / Axis2 reference pixel

CRVAL1 = 84.0421 / Axis1 reference value (deg)

CRVAL2 = -1.17586 / Axis2 reference value (deg)

CDELT1 = -0.00464357 / X pixel size (deg)

CDELT2 = 0.00463176 / Y pixel size (deg)

PC1_1 = 0.85877 / Linear transformation matrix (1, 1)

PC1_2 = -0.511538 / Linear transformation matrix (1, 2)

PC2_1 = 0.513667 / Linear transformation matrix (2, 1)

PC2_2 = 0.858483 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

HISTORY mean stacking with winsorized sigma clipping rejection (low=3.000 high=3

HISTORY .000), additive+scaling normalized input, normalized output, no image we

HISTORY ighting, unequalized RGB

HISTORY Crop (x=1040, y=315, w=2872, h=2103)

HISTORY Background extraction (Correction: Subtraction)

HISTORY Photometric CC

HISTORY GHS pivot: 0.000, amount: 271.76, local: 0.00 [0.00 1.00]

HISTORY Histogram Transf. (mid=0.428, lo=0.041, hi=1.000)

HISTORY SCNR (type=average neutral, amount=1.00, preserve=true)

HISTORY Saturation enhancement (amount=0.25)

END

 
DSC_1441 by gholzer
Citrus sun by Ponigrl6

All horses,at least once in their livetime,deserve to be loved by a

little girl.
Patty e Daniella Brasil Festival 2008 by Brasilfestival Bologna Italia

Foto Ventimiglia www.livetime.it
DSC_1433 by gholzer
M8 Lagoon Nebula - Dwarf 2 by Frank Ryan Jr StargazerMan

446 x 10 sec.

(74min total integration)

Tenerife

 

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 3349 / length of data axis 1

NAXIS2 = 1795 / 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

MIPS-FHI= 1 / Upper visualization cutoff

MIPS-FLO= 0.0297398 / Lower visualization cutoff

BZERO = 0 / offset data range to that of unsigned short

BSCALE = 1 / default scaling factor

DATE = '2024-08-26T01:09:33' / UTC date that FITS file was created

DATE-OBS= '2024-08-04T23:32:38.394000' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'DWARFII ' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'DWARFII ' / 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= 200.355 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

EXPTIME = 10 / Exposure time [s]

STACKCNT= 446 / Stack frames

LIVETIME= 4460 / Exposure time after deadtime correction

EXPSTART= 2.46053e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46053e+06 / Exposure end time (standard Julian date)

FILTER = 'mixed ' / Active filter name

OBJECT = 'M 8 ' / Name of the object of interest

GAIN = 80 / Ca
Ringier 175 Jahre Jubiläum by Chris Schaer

One second in the mouth, a livetime on the hüfte...
M36-S50 by Stéphane L'Hôte

SIMPLE = T / file does conform to FITS standard

BITPIX = 20 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 904 / length of data axis 1

NAXIS2 = 1728 / 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 = '2024-01-28T09:25:11' / UTC date that FITS file was created

DATE-OBS= '2024-01-27T20:41:41.752250' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'Seestar S50' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'Seestar S50' / telescope used to acquire this image

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= 250 / Camera focal length

CCD-TEMP= 10 / CCD temp in C

EXPTIME = 10 / Exposure time [s]

STACKCNT= 180 / Stack frames

LIVETIME= 1800 / Exposure time after deadtime correction

EXPSTART= 2.46034e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46034e+06 / Exposure end time (standard Julian date)

FILTER = 'IRCUT ' / Active filter name

IMAGETYP= 'Light ' / Type of image

OBJECT = 'M 36 ' / Name of the object of interest

GAIN = 80 / Camera gain

SITELAT = 48.4314 / [deg] Observation site latitude

SITELONG= 0.1275 / [deg] Observation site longitud
4a Feira da Sao Paulo www.livetime.it by sambacik
DSC_1440 by gholzer
IMG_0851 by gholzer
M8 Lagoon Nebula by Hub Ciboulette

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 11949 / length of data axis 1

NAXIS2 = 7959 / 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

MIPS-FHI= 1 / Upper visualization cutoff

MIPS-FLO= 0 / Lower visualization cutoff

BZERO = 0 / offset data range to that of unsigned short

BSCALE = 1 / default scaling factor

DATE = '2023-07-25T20:57:38' / UTC date that FITS file was created

DATE-OBS= '2023-04-19T02:27:39' / YYYY-MM-DDThh🇲🇲ss observation start, UT

INSTRUME= 'Fujifilm X-T2' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= ' ' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 1.96 / X pixel size microns

YPIXSZ = 1.96 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 50 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

EXPTIME = 120 / Exposure time [s]

STACKCNT= 2 / Stack frames

LIVETIME= 240 / Exposure time after deadtime correction

APERTURE= 1 / Aperture of the instrument

ISOSPEED= 3200 / ISO camera setting

HISTORY mean stacking with winsorized sigma clipping rejection (low=3.000 high=3

HISTORY .000), additive+scaling normalized input, normalized output, no image we

HISTORY ighting, equalized RGB

HISTORY Recadrage (x=52, y=52, w=11949, h=7959)

HISTORY Neutralisation du fond du ciel

HISTORY talonnage des couleurs

HISTORY Transf. histogramme (mid=0.013, lo=0.135, hi=1.000)

HISTORY SCNR (type=neutre moyen, qt =1.00, pr serve=true)

HISTORY Rehaussement de la saturation (quantit =0.05)

END
IMG_0839 by gholzer
by Barry Zee

London Camera Exchange nationwide photo specialist bring you an exclusive photowalk through the picturesque streets of Chichester!

 

Today Olympus expert Jez Sugars for his latest street photography walk, on which you’ll be able to weave your way through the historical city, soaking up a heritage that dates back to Roman times. Whether you’re new to photography or already a keen enthusiast, our photowalk experience will provide inspiration and creativity in spades. Don’t miss this opportunity to get hands on with the latest & greatest Olympus cameras and lenses, as well as getting to know the kit you already own.

 

During the walk, Jez will be demonstrating the features unique to the OM-D E-M1 Mark II, including ND with livetime, High res mode, and In-camera focus stacking. Book to attend and you’ll be rewarded with the chance to pick up tips and advice first hand from our resident expert, as well as in-store staff, all enabling you to develop your skills and broaden your knowledge.

 

The date to etch into your diary is Saturday 28th July 2018, when we will be running two walks; the first from 10:00-12:30 and the second from 13:00-15:30.

Ticket price: £10 inc. VAT
Daniele di Bonaventura assolo 6° Acordeons 2010 by Acordeons Festival

www.acordeons.org www.livetime.it www.acordeons.it
The family christmas corner by Phan Nguyen

Shot using Livetime mode, used only flash lights from Christmas tree
luna minerale calante by luigi traversi photography

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 3343 / length of data axis 1

NAXIS2 = 2428 / 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 = '2024-08-23T17:25:59' / UTC date that FITS file was created

DATE-OBS= '2024-08-23T05:27:11' / YYYY-MM-DDThh🇲🇲ss observation start, UT

INSTRUME= 'Canon EOS R6' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= ' ' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 3.28 / X pixel size microns

YPIXSZ = 3.28 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 800 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

SET-TEMP= 0 / Temperature setting in C

EXPTIME = 0.005 / Exposure time [s]

STACKCNT= 51 / Stack frames

LIVETIME= 0.255 / Exposure time after deadtime correction

EXPSTART= 2.46055e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46055e+06 / Exposure end time (standard Julian date)

APERTURE= 11 / Aperture of the instrument

ISOSPEED= 400 / ISO camera setting

HISTORY sum stacking without rejection, unnormalized input, unnormalized output,

HISTORY no image weighti
M20 Triffid Nebula by Frank Ryan Jr StargazerMan

Dwarf 2

233 exposures of 15 seconds (58 minutes)

Gain 90.

Processed in Siril and Photoshop.

 

Tenerife Aug 2024

 

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 3125 / length of data axis 1

NAXIS2 = 1640 / 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

MIPS-FHI= 1 / Upper visualization cutoff

MIPS-FLO= 0 / Lower visualization cutoff

BZERO = 0 / offset data range to that of unsigned short

BSCALE = 1 / default scaling factor

DATE = '2024-08-25T22:10:27' / UTC date that FITS file was created

DATE-OBS= '2024-08-05T23:51:39.390000' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'DWARFII ' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'DWARFII ' / telescope used to acquire this image

ROWORDER= 'TOP-DOWN' / Order of the rows in image array

XPIXSZ = 1.45 / X pixel size microns

YPIXSZ = 1.45 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 100.201 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

EXPTIME = 15 / Exposure time [s]

STACKCNT= 233 / Stack frames

LIVETIME= 3495 / Exposure time after deadtime correction

EXPSTART= 2.46053e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46053e+06 / Exposure end time (standard Julian date)

FILTER = 'mixed ' / Active filter name

OBJECT = 'M 20 ' / Name of the object of interest

GAIN = 90 / Ca
Chevy Chase in Lexington, Ky by Al

OLYMPUS DIGITAL CAMERA

Whirlpool-Galaxie by Ralph Claßen

SIMPLE = T / file does conform to FITS standard

BITPIX = 20 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 4144 / length of data axis 1

NAXIS2 = 2822 / 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 = '2023-06-10T10:19:34' / UTC date that FITS file was created

DATE-OBS= '2023-06-05T21:51:22.798118' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'ZWO ASI294MC Pro' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'iOptron CEM26/GEM28/HEM27' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 4.63 / X pixel size microns

YPIXSZ = 4.63 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 974.273 / Camera focal length

CCD-TEMP= -10 / CCD temp in C

EXPTIME = 600 / Exposure time [s]

STACKCNT= 60 / Stack frames

LIVETIME= 36000 / Exposure time after deadtime correction

EXPSTART= 2.4601e+06 / Exposure start time (standard Julian date)

EXPEND = 2.4601e+06 / Exposure end time (standard Julian date)

FILTER = 'StarMask' / Active filter name

IMAGETYP= 'Light ' / Type of image

CVF = 0.99077 / Conversion factor (e-/adu)

GAIN = 121 / Camera gain

OFFSET = 30 / Camera offset

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 = '13 29 56.521' / Image center Right Ascension (hms)

OBJCTDEC= '+47 11 17.702' / Image center Declination (dms)

RA = 202.486 / Image center Right Ascension (deg)

DEC = 47.1883 / Image center Declination (deg)

CRPIX1 = 2072 / Axis1 reference pixel

CRPIX2 = 1411 / Axis2 reference pixel

CRVAL1 = 202.486 / Axis1 reference value (deg)

CRVAL2 = 47.1883 / Axis2 reference value (deg)

CDELT1 = -0.000272277 / X pixel size (deg)

CDELT2 = 0.000272287 / Y pixel size (deg)

PC1_1 = -0.0364702 / Linear transformation matrix (1, 1)

PC1_2 = 0.999371 / Linear transformation matrix (1, 2)

PC2_1 = -0.999297 / Linear transformation matrix (2, 1)

PC2_2 = -0.0365141 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

HISTORY Hintergrundextraktion (Korrektur: Subtraction)

HISTORY Photometrie CC

HISTORY Photometrie CC

HISTORY Photometrie CC

HISTORY Photometrie CC

HISTORY Asinh Transformation: (stretch= 108.9, bp=0.00000)

HISTORY GHS ASINH Pivot: 0.000, Stärke: 4.56 [0.00 0.68]

HISTORY Sättigungsverbesserung (Menge=0.44)

END

 
M24 Complex-1 by Phillip Hicks

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 6110 / length of data axis 1

NAXIS2 = 6154 / 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

PROGRAM = 'Siril 1.4.0-beta2' / Software that created this HDU

DATE = '2025-06-26T00:46:05' / UTC date that FITS file was created

DATE-OBS= '2011-11-21T01:10:08.542237' / YYYY-MM-DDThh🇲🇲ss observation start,

EXPTIME = 1107. / [s] Exposure time duration

FILTER = 'mixed ' / Active filter name

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

STACKCNT= 3 / Stack frames

LIVETIME= 3321. / [s] Exposure time after deadtime correction

AIRMASS = 1. / Airmass at frame center (Gueymard 1993)

OBJCTRA = '18 31 3.958' / [H M S] Image center Right Ascension

OBJCTDEC= '-19 00 2.095' / [D M S] Image center Declination

RA = 277.766490071348 / [deg] Image center Right Ascension

DEC = -19.0005819186845 / [deg] Image center Declination

CTYPE1 = 'RA---TAN-SIP' / TAN (gnomic) projection + SIP distortions

CTYPE2 = 'DEC--TAN-SIP' / TAN (gnomic) projection + SIP distortions

CUNIT1 = 'deg ' / Unit of coordinates

CUNIT2 = 'deg ' / Unit of coordinates

EQUINOX = 2000. / Equatorial equinox

CRPIX1 = 2768.59362793 / Axis1 reference pixel

CRPIX2 = 4594.8949585 / Axis2 reference pixel

CRVAL1 = 277.786642891 / [deg] Axis1 reference value

CRVAL2 = -18.8951241332 / [deg] Axis2 reference value

LONPOLE = 180. / Native longitude of celestial pole

CDELT1 = -6.93841817572853E-05 / [deg] X pixel size

CDELT2 = 6.93728380583776E-05 / [deg] Y pixel size

PC1_1 = 0.999967930553782 / Linear transformation matrix (1, 1)

PC1_2 = 0.00800861186395205 / Linear transformation matrix (1, 2)

PC2_1 = -0.00906638124393479 / Linear transformation matrix (2, 1)

PC2_2 = 0.999958899520945 / Linear transformation matrix (2, 2)

A_ORDER = 2 / SIP polynomial degree, axis 1, pixel-to-sky

A_0_0 = 0.

A_1_0 = 0.

A_0_1 = 0.

A_2_0 = 1.24189416147E-07

A_1_1 = 1.1469150351E-07

A_0_2 = -3.27428309325E-08

B_ORDER = 2 / SIP polynomial degree, axis 2, pixel-to-sky

B_0_0 = 0.

B_1_0 = 0.

B_0_1 = 0.

B_2_0 = 7.84505044135E-08

B_1_1 = 3.96225920251E-08

B_0_2 = -1.0141475939E-07

AP_ORDER= 2 / SIP polynomial degree, axis 1, sky-to-pixel

AP_0_0 = 0.000167037209086

AP_1_0 = 2.63115750936E-07

AP_0_1 = 1.37231949446E-07

AP_2_0 = -1.2421954023E-07

AP_1_1 = -1.14642235108E-07

AP_0_2 = 3.27277595634E-08

BP_ORDER= 2 / SIP polynomial degree, axis 2, sky-to-pixel

BP_0_0 = 0.000126729094117

BP_1_0 = 1.27336499201E-07

BP_0_1 = 1.62526298494E-08

BP_2_0 = -7.844514055E-08

BP_1_1 = -3.95809948966E-08

BP_0_2 = 1.01326718939E-07

HISTORY Cosmic Clarity sharpen (Both)

HISTORY Cosmic Clarity denoise (full, str=0.8)

PC001001= -1.

PC001002= 0.

PC002001= 0.

PC002002= 1.

PSLIB_V = '37083 '

MODULE_V= '37323:37768'

PHOT_V = '37083 '

STATS_V = '37083 '

STACK_V = '37083 '

NINPUTS = 26 / Number of input images

STK_TYPE= 'DEEP_STACK' / type of stack

STK_ID = '4219836 ' / type of stack

SKYCELL = 'skycell.0946.021' / type of stack

TESS_ID = 'RINGS.V3' / type of stack

AIRM_SLP= 0. / airmass slope

INP_0000= 'o4998g0315o.78335.wrp.1367591.skycell.0946.021.fits' / input image na

INP_0001= 'o6532g0103o.649167.wrp.1367595.skycell.0946.021.fits' / input image n

INP_0002= 'o6532g0119o.649184.wrp.1367598.skycell.0946.021.fits' / input image n

INP_0003= 'o5708g0193o.341295.wrp.1367599.skycell.0946.021.fits' / input image n

INP_0004= 'o5708g0176o.341278.wrp.1367600.skycell.0946.021.fits' / input image n

INP_0005= 'o6174g0149o.518908.wrp.1367608.skycell.0946.021.fits' / input image n

INP_0006= 'o5708g0192o.341294.wrp.1367616.skycell.0946.021.fits' / input image n

INP_0007= 'o6482g0202o.630627.wrp.1367617.skycell.0946.021.fits' / input image n

INP_0008= 'o4998g0326o.78345.wrp.1367619.skycell.0946.021.fits' / input image na

INP_0009= 'o5366g0414o.184216.wrp.1367625.skycell.0946.021.fits' / input image n

INP_0010= 'o5366g0431o.184233.wrp.1367629.skycell.0946.021.fits' / input image n

INP_0011= 'o5366g0434o.184236.wrp.1367630.skycell.0946.021.fits' / input image n

INP_0012= 'o6532g0106o.649171.wrp.1367636.skycell.0946.021.fits' / input image n

INP_0013= 'o6482g0187o.630613.wrp.1367640.skycell.0946.021.fits' / input image n

INP_0014= 'o6174g0165o.518924.wrp.1367662.skycell.0946.021.fits' / input image n

INP_0015= 'o6532g0122o.649186.wrp.1367670.skycell.0946.021.fits' / input image n

INP_0016= 'o6487g0223o.632458.wrp.1367671.skycell.0946.021.fits' / input image n

INP_0017= 'o5708g0175o.341276.wrp.1367679.skycell.0946.021.fits' / input image n

INP_0018= 'o6174g0166o.518925.wrp.1367694.skycell.0946.021.fits' / input image n

INP_0019= 'o6174g0150o.518909.wrp.1367701.skycell.0946.021.fits' / input image n

INP_0020= 'o6482g0203o.630629.wrp.1367713.skycell.0946.021.fits' / input image n

INP_0021= 'o5366g0417o.184219.wrp.1367714.skycell.0946.021.fits' / input image n

INP_0022= 'o6482g0188o.630614.wrp.1367750.skycell.0946.021.fits' / input image n

INP_0023= 'o6487g0206o.632440.wrp.1367766.skycell.0946.021.fits' / input image n

INP_0024= 'o6487g0222o.632455.wrp.1367768.skycell.0946.021.fits' / input image n

INP_0025= 'o6487g0207o.632441.wrp.1367781.skycell.0946.021.fits' / input image n

SCL_0000= 41.22736 / input image scale factor

SCL_0001= 0. / input image scale factor

SCL_0002= 0. / input image scale factor

SCL_0003= 41.74517 / input image scale factor

SCL_0004= 0. / input image scale factor

SCL_0005= 39.31511 / input image scale factor

SCL_0006= 45.37136 / input image scale factor

SCL_0007= 36.06217 / input image scale factor

SCL_0008= 42.82136 / input image scale factor

SCL_0009= 0. / input image scale factor

SCL_0010= 35.84748 / input image scale factor

SCL_0011= 35.80235 / input image scale factor

SCL_0012= 0. / input image scale factor

SCL_0013= 36.09392 / input image scale factor

SCL_0014= 38.91143 / input image scale factor

SCL_0015= 37.54962 / input image scale factor

SCL_0016= 35.66381 / input image scale factor

SCL_0017= 0. / input image scale factor

SCL_0018= 0. / input image scale factor

SCL_0019= 38.72731 / input image scale factor

SCL_0020= 0. / input image scale factor

SCL_0021= 35.12585 / input image scale factor

SCL_0022= 0. / input image scale factor

SCL_0023= 35.13147 / input image scale factor

SCL_0024= 35.83665 / input image scale factor

SCL_0025= 35.21092 / input image scale factor

ZPT_0000= 24.58167 / input image zero point

ZPT_0001= 24.51431 / input image zero point

ZPT_0002= 24.56364 / input image zero point

ZPT_0003= 24.52396 / input image zero point

ZPT_0004= 24.47491 / input image zero point

ZPT_0005= 24.58358 / input image zero point

ZPT_0006= 24.50591 / input image zero point

ZPT_0007= 24.65099 / input image zero point

ZPT_0008= 24.54893 / input image zero point

ZPT_0009= 24.6443 / input image zero point

ZPT_0010= 24.6397 / input image zero point

ZPT_0011= 24.63545 / input image zero point

ZPT_0012= 24.47893 / input image zero point

ZPT_0013= 24.64721 / input image zero point

ZPT_0014= 24.59128 / input image zero point

ZPT_0015= 24.61317 / input image zero point

ZPT_0016= 24.64706 / input image zero point

ZPT_0017= 24.46848 / input image zero point

ZPT_0018= 24.60698 / input image zero point

ZPT_0019= 24.58679 / input image zero point

ZPT_0020= 24.65972 / input image zero point

ZPT_0021= 24.63823 / input image zero point

ZPT_0022= 24.65412 / input image zero point

ZPT_0023= 24.65029 / input image zero point

ZPT_0024= 24.65325 / input image zero point

ZPT_0025= 24.64644 / input image zero point

EXP_0000= 38. / input image exptime

EXP_0001= 40. / input image exptime

EXP_0002= 40. / input image exptime

EXP_0003= 40. / input image exptime

EXP_0004= 40. / input image exptime

EXP_0005= 40. / input image exptime

EXP_0006= 40. / input image exptime

EXP_0007= 40. / input image exptime

EXP_0008= 38. / input image exptime

EXP_0009= 40. / input image exptime

EXP_0010= 40. / input image exptime

EXP_0011= 40. / input image exptime

EXP_0012= 40. / input image exptime

EXP_0013= 40. / input image exptime

EXP_0014= 40. / input image exptime

EXP_0015= 40. / input image exptime

EXP_0016= 40. / input image exptime

EXP_0017= 40. / input image exptime

EXP_0018= 40. / input image exptime

EXP_0019= 40. / input image exptime

EXP_0020= 40. / input image exptime

EXP_0021= 40. / input image exptime

EXP_0022= 40. / input image exptime

EXP_0023= 40. / input image exptime

EXP_0024= 40. / input image exptime

EXP_0025= 40. / input image exptime

AIR_0000= 1.549 / input image airmass

AIR_0001= 1.322 / input image airmass

AIR_0002= 1.336 / input image airmass

AIR_0003= 1.319 / input image airmass

AIR_0004= 1.321 / input image airmass

AIR_0005= 1.297 / input image airmass

AIR_0006= 1.27 / input image airmass

AIR_0007= 1.322 / input image airmass

AIR_0008= 1.612 / input image airmass

AIR_0009= 1.403 / input image airmass

AIR_0010= 1.446 / input image airmass

AIR_0011= 1.391 / input image airmass

AIR_0012= 1.284 / input image airmass

AIR_0013= 1.327 / input image airmass

AIR_0014= 1.315 / input image airmass

AIR_0015= 1.295 / input image airmass

AIR_0016= 1.333 / input image airmass

AIR_0017= 1.273 / input image airmass

AIR_0018= 1.326 / input image airmass

AIR_0019= 1.312 / input image airmass

AIR_0020= 1.28 / input image airmass

AIR_0021= 1.353 / input image airmass

AIR_0022= 1.286 / input image airmass

AIR_0023= 1.272 / input image airmass

AIR_0024= 1.281 / input image airmass

AIR_0025= 1.324 / input image airmass

PSCAMERA= 'GPC1 ' / Camera name

PSFORMAT= 'SKYCELL ' / Camera format

IMAGEID = 4219836 / Image identifier

SOURCEID= 35 / Source identifier

HIERARCH FPA.TELESCOPE = 'PS1 ' / Telescope of origin

HIERARCH FPA.INSTRUMENT = 'GPC1 ' / Instrument name (according to the instrum

HIERARCH FPA.DETECTOR = 'GPC1 ' / Detector name

HIERARCH FPA.COMMENT = ' ' / Observation comment

HIERARCH FPA.OBS.MODE = ' ' / Observation mode (eg, survey id)

HIERARCH FPA.OBS.GROUP = ' ' / Observation group (eg, associated images)

HIERARCH FPA.FOCUS = 'NaN ' / Telescope focus

HIERARCH FPA.FILTERID = 'r.00000 ' / Filter used (parsed, abstract name)

HIERARCH FPA.FILTER = 'r.00000 ' / Filter used (instrument name)

HIERARCH FPA.POSANGLE = 'NaN ' / Position angle of instrument

HIERARCH FPA.ROTANGLE = 'NaN ' / Rotator angle of instrument

HIERARCH FPA.RADECSYS = ' ' / Celestial coordinate system

HIERARCH FPA.RA = 'NaN ' / Right Ascension of boresight

HIERARCH FPA.DEC = 'NaN ' / Declination of boresight

HIERARCH FPA.LONGITUDE = 'NaN ' / West longitude of observatory

HIERARCH FPA.LATITUDE = 'NaN ' / Latitude of observatory

HIERARCH FPA.ELEVATION = 'NaN ' / Elevation of observatory (meters)

HIERARCH FPA.OBSTYPE = ' ' / Type of observation

HIERARCH FPA.OBJECT = ' ' / Object of observation

HIERARCH FPA.ALT = 'NaN ' / Altitude of boresight

HIERARCH FPA.AZ = 'NaN ' / Azimuth of boresight

HIERARCH FPA.TEMP = 'NaN ' / Temperature of focal plane

HIERARCH FPA.M1X = 'NaN ' / Primary Mirror X Position

HIERARCH FPA.M1Y = 'NaN ' / Primary Mirror Y Position

HIERARCH FPA.M1Z = 'NaN ' / Primary Mirror Z Position

HIERARCH FPA.M1TIP = 'NaN ' / Primary Mirror TIP

HIERARCH FPA.M1TILT = 'NaN ' / Primary Mirror TILT

HIERARCH FPA.M2X = 'NaN ' / Primary Mirror X Position

HIERARCH FPA.M2Y = 'NaN ' / Primary Mirror Y Position

HIERARCH FPA.M2Z = 'NaN ' / Primary Mirror Z Position

HIERARCH FPA.M2TIP = 'NaN ' / Primary Mirror TIP

HIERARCH FPA.M2TILT = 'NaN ' / Primary Mirror TILT

HIERARCH FPA.ENV.TEMP = 'NaN ' / Environment: Temperature

HIERARCH FPA.ENV.HUMID = 'NaN ' / Environment: Humidity

HIERARCH FPA.ENV.WIND = 'NaN ' / Environment: Wind speed

HIERARCH FPA.ENV.DIR = 'NaN ' / Environment: Wind direction

HIERARCH FPA.TELTEMP.M1 = 'NaN ' / Telescope Temperatures: M1

HIERARCH FPA.TELTEMP.M1CELL = 'NaN ' / Telescope Temperatures: M1 cell

HIERARCH FPA.TELTEMP.M2 = 'NaN ' / Telescope Temperatures: M2

HIERARCH FPA.TELTEMP.SPIDER = 'NaN ' / Telescope Temperatures: spider

HIERARCH FPA.TELTEMP.TRUSS = 'NaN ' / Telescope Temperatures: truss

HIERARCH FPA.TELTEMP.EXTRA = 'NaN ' / Telescope Temperatures: extra

HIERARCH FPA.PON.TIME = 'NaN ' / Power On Time

HIERARCH FPA.ZP = 25. / Magnitude zero point

HIERARCH CHIP.XSIZE = 0 / Size of chip (pixels)

HIERARCH CHIP.YSIZE = 0 / Size of chip (pixels)

HIERARCH CHIP.TEMP = 'NaN ' / Temperature of chip

HIERARCH CHIP.TEMPERATURE = 'NaN ' / Temperature of chip

HIERARCH CHIP.ID = ' ' / Chip identifier

HIERARCH CHIP.SEEING = 'NaN ' / Seeing FWHM (pixels)

HIERARCH CHIP.VIDEOCELL = F / Does this OTA have any video cells

HIERARCH CELL.GAIN = 1.04052 / CCD gain (e/count)

HIERARCH CELL.READNOISE = 12.96594 / CCD read noise (e)

HIERARCH CELL.SATURATION = 1792374. / Saturation level (counts)

HIERARCH CELL.BAD = 0. / Bad level (counts)

HIERARCH CELL.DARKTIME = 'NaN ' / Time since flush (sec)

HIERARCH CELL.XBIN = 1 / Binning in x

HIERARCH CELL.YBIN = 1 / Binning in y

MJD-OBS = 55969.6057226933 / Time of exposure

HIERARCH CELL.XSIZE = 0 / Size of cell (pixels)

HIERARCH CELL.YSIZE = 0 / Size of cell (pixels)

HIERARCH CELL.XWINDOW = 0 / Start of cell window (pixels)

HIERARCH CELL.YWINDOW = 0 / Start of cell window (pixels)

HIERARCH CELL.TRIMSEC = '[1:6274,1:6258]' / Trim section

HIERARCH CELL.BIASSEC = ''

BSOFTEN = 9.543616297404E+02 / Scaling: LINEAR = 2 * BSOFTEN * sinh(TRUE/a)

BOFFSET = 1.230758056641E+02 / Scaling: UNCOMP = BOFFSET + LINEAR

BLANK = 32767 / Value for undefined pixels

COMMENT Original key: "END"

COMMENT

COMMENT --Start of Astrometry.net WCS solution--

COMMENT --Put in by the new-wcs program--

COMMENT

WCSAXES = 2 / no comment

LATPOLE = 0.0 / no comment

IMAGEW = 6274 / Image width, in pixels.

IMAGEH = 6258 / Image height, in pixels.

COMMENT Original WCS key: "DATE"

_ATE = '2025-06-25T23:29:35' / Date this file was created.

COMMENT -- onefield solver parameters: --

COMMENT Index(0): /data/INDEXES/index-4100/index-4107.fits

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COMMENT Field name: job.axy

COMMENT Field scale lower: 0.0573797 arcsec/pixel

COMMENT Field scale upper: 103.283 arcsec/pixel

COMMENT X col name: X

COMMENT Y col name: Y

COMMENT Start obj: 0

COMMENT End obj: 0

COMMENT Solved_in: (null)

COMMENT Solved_out: (null)

COMMENT Parity: 2

COMMENT Codetol: 0.01

COMMENT Verify pixels: 1 pix

COMMENT Maxquads: 0

COMMENT Maxmatches: 0

COMMENT Cpu limit: 600.000000 s

COMMENT Time limit: 0 s

COMMENT Total time limit: 0 s

COMMENT Total CPU limit: 0.000000 s

COMMENT Tweak: yes

COMMENT Tweak AB order: 2

COMMENT Tweak ABP order: 2

COMMENT --

COMMENT -- properties of the matching quad: --

COMMENT index id: 5206

COMMENT index healpix: 28

COMMENT index hpnside: 2

COMMENT log odds: 145.973

COMMENT odds: 2.484e+63

COMMENT quadno: 66095

COMMENT stars: 105991,105975,105976,105984

COMMENT field: 5,4,1,10

COMMENT code error: 0.00263397

COMMENT nmatch: 16

COMMENT nconflict: 0

COMMENT nfield: 1000

COMMENT nindex: 24

COMMENT scale: 0.249763 arcsec/pix

COMMENT parity: 0

COMMENT quads tried: 36523

COMMENT quads matched: 57117

COMMENT quads verified: 55312

COMMENT objs tried: 11

COMMENT cpu time: 4.95271

COMMENT --

COMMENT

COMMENT --End of Astrometry.net WCS--

COMMENT --(Put in by the new-wcs program)--

COMMENT

END
09: F1 Timing App Info Menu by Soft Pauer

Selecting 'Info' from the App's bottom bar brings you to a menu screen where you can see further information on drivers, teams, races and standings.

 

www.softpauer.com/f1app
Triangulum/ar by Alex Blanche

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 1002 / length of data axis 1

NAXIS2 = 1203 / 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 = '2024-10-14T23:34:17' / UTC date that FITS file was created

DATE-OBS= '2024-10-13T06:33:40.275030' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'Seestar S50' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'Seestar S50' / telescope used to acquire this image

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= 252.037 / Camera focal length

CCD-TEMP= 32.3125 / CCD temp in C

EXPTIME = 10 / Exposure time [s]

STACKCNT= 124 / Stack frames

LIVETIME= 1240 / Exposure time after deadtime correction

EXPSTART= 2.4606e+06 / Exposure start time (standard Julian date)

EXPEND = 2.4606e+06 / Exposure end time (standard Julian date)

FILTER = 'IRCUT ' / Active filter name

IMAGETYP= 'Light ' / Type of image

OBJECT = 'M 33 ' / Name of the object of interest

APERTURE= 5 / Aperture of the instrument

GAIN = 80 / Camera gain

SITELAT = 33.5491 / [deg] Observation site latitude

SITELONG= -112.046 / [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 = '01 34 11.362' / Image center Right Ascension (hms)

OBJCTDEC= '+30 38 43.372' / Image center Declination (dms)

RA = 23.5473 / Image center Right Ascension (deg)

DEC = 30.6454 / Image center Declination (deg)

CRPIX1 = 501 / Axis1 reference pixel

CRPIX2 = 601.5 / Axis2 reference pixel

CRVAL1 = 23.5473 / Axis1 reference value (deg)

CRVAL2 = 30.6454 / Axis2 reference value (deg)

CDELT1 = -0.000659352 / X pixel size (deg)

CDELT2 = 0.000659168 / Y pixel size (deg)

PC1_1 = 0.331108 / Linear transformation matrix (1, 1)

PC1_2 = 0.943431 / Linear transformation matrix (1, 2)

PC2_1 = -0.943856 / Linear transformation matrix (2, 1)

PC2_2 = 0.330819 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

HISTORY mean stacking with winsorized sigma clipping rejection (low=3.000 high=3

HISTORY .000), additive+scaling normalized input, unnormalized output, image wei

HISTORY ghting from star count, unequalized RGB

HISTORY Photometric CC

HISTORY Histogram Transf. (mid=0.048, lo=0.000, hi=1.000)

HISTORY Histogram Transf. (mid=0.140, lo=0.000, hi=1.000)

HISTORY Histogram Transf. (mid=0.272, lo=0.010, hi=1.000)

HISTORY Histogram Transf. (mid=0.404, lo=0.013, hi=1.000)

HISTORY Histogram Transf. (mid=0.437, lo=0.010, hi=1.000)

END

 
SIMPLE = T / file does conform to FITS standardBITPIX = 20 / number of bits per data pixelNAXIS = 3 / number of data axesNAXIS1 = 5497 / length of data axis 1NAXIS2 = by Gregg Bellman

SIMPLE = T / file does conform to FITS standard

BITPIX = 20 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 5497 / length of data axis 1

NAXIS2 = 3674 / 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 = '2024-02-19T23:38:05' / UTC date that FITS file was created

DATE-OBS= '2024-02-19T02:43:00.016380' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'ZWO ASI2600MC Pro' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'Celestron AVX/CGE/CGEM/CGX' / telescope used to acquire this image

XPIXSZ = 3.76 / X pixel size microns

YPIXSZ = 3.76 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 2522.42 / Camera focal length

CCD-TEMP= 0.2 / CCD temp in C

EXPTIME = 180 / Exposure time [s]

STACKCNT= 181 / Stack frames

LIVETIME= 32580 / Exposure time after deadtime correction

EXPSTART= 2.46036e+06 / Exposure start time (standard Julian date)

EXPEND = 2.46036e+06 / Exposure end time (standard Julian date)

IMAGETYP= 'Light ' / Type of image

CVF = 0.242863 / Conversion factor (e-/adu)

GAIN = 100 / Camera gain

OFFSET = 50 / Camera offset

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 = '08 52 42.770' / Image center Right Ascension (hms)

OBJCTDEC= '+33 25 11.857' / Image center Declination (dms)

RA = 133.178 / Image center Right Ascension (deg)

DEC = 33.42 / Image center Declination (deg)

CRPIX1 = 2748.5 / Axis1 reference pixel

CRPIX2 = 1837 / Axis2 reference pixel

CRVAL1 = 133.178 / Axis1 reference value (deg)

CRVAL2 = 33.42 / Axis2 reference value (deg)

CDELT1 = -8.54011e-05 / X pixel size (deg)

CDELT2 = 8.5413e-05 / Y pixel size (deg)

PC1_1 = 0.989886 / Linear transformation matrix (1, 1)

PC1_2 = 0.141913 / Linear transformation matrix (1, 2)

PC2_1 = -0.141845 / Linear transformation matrix (2, 1)

PC2_2 = 0.989882 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

HISTORY mean stacking with winsorized sigma clipping rejection (low=3.000 high=3

HISTORY .000), additive+scaling normalized input, normalized output, no image we

HISTORY ighting, unequalized RGB

HISTORY Crop (x=319, y=210, w=5497, h=3674)

HISTORY Photometric CC

HISTORY Histogram Transf. (mid=0.001, lo=0.000, hi=0.987)

HISTORY NL-Bayes denoise (mod=1.000, CC enabled)

HISTORY SCNR (type=average neutral, amount=1.00, preserve=true)

HISTORY Median Filter (filter=5x5 px)

HISTORY Background extraction (Correction: Subtraction)

HISTORY Saturation enhancement (amount=0.56)

END
IMG_0846 by gholzer
01: F1 Timing App Launchscreen by Soft Pauer

From the Apple iPhone main menu, this is the F1 Timing App launch screen.

 

www.softpauer.com/f1app
Cosecha by Iván

Esta vez tocó pasear la Olympus por Tórtola de Henares.
M42 - Orion Nebula by Gary Reeves

SIMPLE = T / file does conform to FITS standard

BITPIX = -32 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 2230 / length of data axis 1

NAXIS2 = 1916 / 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 = '2025-01-17T11:13:35' / UTC date that FITS file was created

DATE-OBS= '2025-01-15T19:22:49.816000' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'DWARFIII' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'DWARFIII' / telescope used to acquire this image

XPIXSZ = 2 / X pixel size microns

YPIXSZ = 2 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 147.99 / Camera focal length

EXPTIME = 30 / Exposure time [s]

STACKCNT= 253 / Stack frames

LIVETIME= 7590 / Exposure time after deadtime correction

EXPSTART= 2.46069e+006 / Exposure start time (standard Julian date)

EXPEND = 2.46069e+006 / Exposure end time (standard Julian date)

OBJECT = 'M 42 ' / Name of the object of interest

GAIN = 60 / Camera gain

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 /
m8--y-laguna-polvo-estelar by Al506

SIMPLE = T / file does conform to FITS standard

BITPIX = 16 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 5496 / length of data axis 1

NAXIS2 = 3672 / 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

MIPS-HI = 255 / Upper visualization cutoff

MIPS-LO = 0 / Lower visualization cutoff

BZERO = 0 / offset data range to that of unsigned short

BSCALE = 1 / default scaling factor

DATE = '2023-03-30T00:25:37' / UTC date that FITS file was created

DATE-OBS= '2023-03-26T07:46:50.827191' / YYYY-MM-DDThh🇲🇲ss observation start,

INSTRUME= 'ZWO ASI183MC Pro' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= 'Celestron AVX/CGE/CGEM/CGX' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 2.4 / X pixel size microns

YPIXSZ = 2.4 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 247.27 / Camera focal length

CCD-TEMP= -10 / CCD temp in C

EXPTIME = 200 / Exposure time [s]

STACKCNT= 80 / Stack frames

LIVETIME= 16000 / Exposure time after deadtime correction

FILTER = 'mixed ' / Active filter name

IMAGETYP= 'Light ' / Type of image

CVF = 1.00858 / Conversion factor (e-/adu)

GAIN = 111 / Camera gain

OFFSET = 10 / Camera offset

CTYPE1 = 'RA---TAN' / Coordinat
Good night from the ring, finished P9 in Q1 today, need to be in the last remaining 12 places to make the Super pole for tomorrow afternoon, Q2 starts at 9.30am tomorrow. Follow us live, car #2 https://livetiming.tracktime.info/nurburgring#screen-result by Adam Christodoulou
M17_DSLR2 by Julien G

SIMPLE = T / file does conform to FITS standard

BITPIX = 20 / number of bits per data pixel

NAXIS = 3 / number of data axes

NAXIS1 = 5039 / length of data axis 1

NAXIS2 = 3334 / 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 = '2024-07-30T14:01:02' / UTC date that FITS file was created

DATE-OBS= '2024-07-28T20:33:56' / YYYY-MM-DDThh🇲🇲ss observation start, UT

INSTRUME= 'Canon EOS 250D' / instrument name

OBSERVER= ' ' / observer name

TELESCOP= ' ' / telescope used to acquire this image

ROWORDER= 'BOTTOM-UP' / Order of the rows in image array

XPIXSZ = 3.7 / X pixel size microns

YPIXSZ = 3.7 / Y pixel size microns

XBINNING= 1 / Camera binning mode

YBINNING= 1 / Camera binning mode

FOCALLEN= 994.048 / Camera focal length

CCD-TEMP= 0 / CCD temp in C

SET-TEMP= 0 / Temperature setting in C

EXPTIME = 60 / Exposure time [s]

STACKCNT= 114 / Stack frames

LIVETIME= 6840 / Exposure time after deadtime correction

EXPSTART= 2.46052e+006 / Exposure start time (standard Julian date)

EXPEND = 2.46052e+006 / Exposure end time (standard Julian date)

ISOSPEED= 800 / ISO camera setting

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 = '18 18 35.778' / Image center Right Ascension (hms)

OBJCTDEC= '-13 48 50.272' / Image center Declination (dms)

RA = 274.649 / Image center Right Ascension (deg)

DEC = -13.814 / Image center Declination (deg)

CRPIX1 = 2519.5 / Axis1 reference pixel

CRPIX2 = 1667 / Axis2 reference pixel

CRVAL1 = 274.649 / Axis1 reference value (deg)

CRVAL2 = -13.814 / Axis2 reference value (deg)

CDELT1 = -0.000213192 / X pixel size (deg)

CDELT2 = 0.000213335 / Y pixel size (deg)

PC1_1 = 0.995129 / Linear transformation matrix (1, 1)

PC1_2 = -0.0985779 / Linear transformation matrix (1, 2)

PC2_1 = 0.0985037 / Linear transformation matrix (2, 1)

PC2_2 = 0.995137 / Linear transformation matrix (2, 2)

PLTSOLVD= T / Siril internal solve

HISTORY mean stacking with GESDT rejection (outliers=0.100 significance=0.300),

HISTORY additive+scaling normalized input, unnormalized output, no image weighti

HISTORY ng, equalized RGB

HISTORY Recadrage (x=602, y=393, w=5039, h=3334)

HISTORY Extraction du gradient (Correction : Subtraction)

HISTORY Photométrie

HISTORY SCNR (type=neutre moyen, qté=1.00, préserve=true)

HISTORY Déconvolution

HISTORY Transformation asinh : (stretch= 941.3, bp=0.00010)

HISTORY Transf. histogramme (mid=0.243, lo=0.030, hi=1.000)

END

 

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