Proposed files description

Table of contents

• Meudon Spectroheliograph
  • H alpha spectroheliograms
  • K1 spectroheliograms
  • K3v spectroheliograms
  • K3p spectroheliograms
• Meudon heliograph
  • Movies
  • Curves
• Nançay Radioheliograph
• Nançay Total Radio Flux Antenna
• Decametric Array of Nançay
• Pic du Midi H alpha Coronograph
• Synoptic maps
• Available formats in the database
  • FITS
  • GIF
  • PNG
  • JPEG
  • MPEG
  • Postcript
  • Compressed files

Meudon spectroheliograph

The general aspect of the filename is:

xxyymmdd.hhnnss.fits where

yy are the last two digits of the year, mm is the month, dd is the day, hh the hour, nn the minutes and ss the seconds.

Data are in FITS format.

Two time periods must be considered for spectroheliograms:

• Before the 13th of Mai, 2002: Observations are made with photographic plates, then scanned to be digitalized (hereafter period 1)
• Beginning from the 13th of Mai, 2002: Observations are obtained from a CCD camera (hereafter period 2)

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H alpha spectroheliograms

Wavelength of observation: 6562.8 Angstroems.

Example of filename: mh020530.071524.fits (FITS format)

These data are also available with a coordinate grid surimposed.

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Ca II K1 spectroheliograms

Wavelength of observation: 3933.2 Angstroems.

Example of filename: mk020530.071524.fits (FITS format)

These data are also available with a coordinate grid surimposed.

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Ca II K3v spectroheliograms

Wavelength of observation: 3933.7 Angstroems.

Example of filename: mK020530.071524.fits (FITS format)

These data are also available with a coordinate grid surimposed.

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Ca II K3p prominences spectroheliograms

Wavelength of observation: 3933.7 Angstroems.

Example of filename: mp020530.071524.fits (FITS format)

- More infos

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Meudon Heliograph: Movies and curves

The Meudon heliograph allows the observation of the full sun at different wavelengths in the H alpha line. The Lyot filter has a passband of 0.5 A. Currently, we make 3 images every minute: H alpha centre, H alpha + 0.5 A and H alpha -0.5 A. It is also possible to have H alpha + 1.0 A and H alpha - 1.0 A under request. The detector is a 1536 x 1024 CCD array and data are registered in FITS format (12 bits, values in the range 0 to 4095). The pixel size is 1.95 arc sec. FITS data are written on CD ROM and are not available in the data base. We just offer in BASS2000 quick look MPEG and QuickTime movies in a reduced format (4 arc sec/pixel), in H alpha centre and wings, and with a time resolution of 2 mn. We provide also light curves in POSTSCRIPT and GIF format to identify flare times.

Requests for FITS original data must be sent to J.-M. Malherbe.

The filenames are in the form:

haYYMMDD.mpg, h+YYMMDD.mpg for MPEG files and haYYMMDD.mov for QuickTime files (MOVIES), haYYMMDD.ps for POSTSCRIPT files and haYYMMDD.gif for GIF files (LIGHT CURVES in units of CCD counts, maximum 4095).

The field YYMMDD is the date of observation, where YY is the year, MM is the month and DD is the number of the day.

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Nançay Radioheliograph

Frequencies of observations: 164 MHz and 327 MHz

Example of filename at 164 MHz: na020530.071524.fits (FITS format)

Example of filename at 327 MHz: nb020530.071524.fits (FITS format)

File format is the same for both frequencies:

Nançay radioheliograph data are also available in the following formats:

• movies ( MPEG format)
• radio global flux
• radio N/S-E/W plots
• integrated data: Time resolution of integrated files is 32 seconds before 19 april 1999 and 10 seconds after.
• quicklook data: Time resolution of quicklook files is 128 seconds before 19 april 1999 and 120 seconds after.

- More infos

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Nançay Total Radio Flux Antenna

- More infos

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Decametric Array of Nançay

Frequencies of observations: from 20 to 75 MHz

Kind of data: Dynamic spectra (frequency as a function of time)

Full data (available with authorization)

• Filename: syymmdd.RT1 where yy, mm and dd are respectively the year, month and day
• Data format:

A 405 bytes header followed by n blocks of 405 bytes in the following order: header, left polarization, right polarization, left polarization, ...

Header format for data beginning the 24th of February, 1994:

Header format for data before the 24th of February, 1994:

Format of each data block:

Caution: Scanning velocities indicate 350 ms, but control delays effect is that a spectrum is recorded every 494 ms.

Preview data

These data are integrated over 10 s, summing the two polarizations. They are free of access, in GIF format.

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Pic du Midi H alpha Coronograph

Observing wavelength: 6562.7 Angstroems

Example of filename: pr020530.071524.fits (FITS format)

- More infos

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Synoptic maps

The synoptic maps of the solar activity are in postcript format. These maps indicate when solar structures appear and disappear during a solar rotation. Absciss is time and ordinate is solar latitude. Solar structures are shown on these maps at their actual latitude during all their lifetime.

Two kinds of synoptic maps are proposed:

• One for prominences
• One for filaments
• One for active centers

The informations used for creating synoptic maps are available in the database when you look for synoptic data.

- Synoptic maps user guide

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Available formats in the database

FITS:

This file format consists in a header, containing useful informations concerning the observation, and data. This informations appear as keywords associated with values. In some cases, there could be a secondary header. Each information line of a header is 80 characters long. And each header is a multiple of 2880 characters (ie bytes). Following are data (ie image or images), consisting in one or several arrays of NxP elements, in 8, 16 or 32 bits formats, depends on what is indicated in the header.

The following keywords give useful informations in order to be able to read data:

• EXTEND: if it has the value 'T' (for 'True'), it means that a secondary header exists, which contains informations on data
• NAXIS: Gives the number of dimensions of data array. If it's 0, it means that no data follow (so data must be after the secondary header). If its value is 2, on image follows. If its value is 3, it means that several images follow.
• NAXIS1: gives the first dimension of the image
• NAXIS2: gives the second dimension of the image
• NAXIS3: if it exists, gives the number of images that follow
• BITPIX: Gives the number of bits on which data are encoded: 8 means 1 byte per value, 16 means 2 bytes (ie integer value), 32 or -32 means 4 bytes (ie floating point value).

Click here to see an example of a FITS header.

Extension of FITS files is '.fits' or '.fts'.

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GIF:

These files can be read by most graphic softwares. Data are 8 bits encoded without loosing informations (except if original data are encoded with more than 8 bits, of course).

Extension of GIF files is '.gif'.

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PNG:

These files can be read by most graphic softwares. Data are 16 bits encoded, without loosing informations (except if original data are encoded with more than 16 bits, of course).

Extension of PNG files is '.PNG'.

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JPEG:

These files can also be read by most graphic softwares. Data are 8 bits encoded if they are black and white, and 32 bits encoded for color. JPEG images are compressed, with a loose of informations. But the size of the file is much smaller.

Extension of JPEG files is '.jpeg' or '.jpg'.

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PS (postcript):

Postcript is a vectorial image encoding, so the image can be reduced or raised without lack of informations. This format is specifically usefull for printing. Most laser printers can use postcript format, but generally not ink printers. You can preview postcript files on screen using some specific softwares, such as GHOSTVIEW with UNIX, MacGhostView with Macintosh, XXX with LINUX, or XXX with Windows.

Extension of postcript files is '.ps'.

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Compressed files:

Some filenames have a '.z' extension. It means that they are compressed so as to reduce their size. The compression scheme used is "zip" compression (they are "zipped files") . To uncompress these files, you must use gunzip with UNIX, 'UnZip' or 'StuffIt Expander' softwares with Macintosh, XXX with LINUX, or XXX with Windows.

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