FITS Headers
DMR_FIRAS_SKYMAP_INFO.FITS
Primary Header
SIMPLE = T / File conforms to FITS standard
BITPIX = 32 / Quad-sphere (QS) pixel nos. are 32-bit integers
NAXIS = 3 / Data given as a cube of stacked faces
NAXIS1 = 32 / x axis of face = number of QS pixels on side
NAXIS2 = 32 / y axis of face = number of QS pixels on side
NAXIS3 = 6 / Number of faces [faces numbered from 0 to 5]
EXTEND = T / Binary table extension follows primary array.
COMMENT / The binary table gives the coordinates
COMMENT / for the center of the pixels.
ORIGIN = 'CDAC ' / NASA Cosmology Data Analysis Center
DATE = '14/10/94' / FITS file creation date (dd/mm/yy)
TELESCOP= 'COBE ' / COsmic Background Explorer satellite
INSTRUME= 'FIRAS/DMR' / COBE instruments for which the Quad-sphere
COMMENT / pixel array diagram in the data array is
COMMENT / appropriate.
OBJECT = 'ALL-SKY ' / Part of sky given in the array and extensions
COMMENT COBE project keywords (non- FITS reserved):
PRODUCT = 'PIXINFO6' / Pixel information file for given resolution
PROJECTN= 'QUADSPHR' / Projection used is a Quad-sphere projection
PIXORDER= 'QUADTREE' / Pixel ordering used
PIX0LOCN= 'BRC ' / Location of initial pixel on face
COMMENT / BRC = "Bottom Right Corner"
COORDSYS= 'E ' / Pixelization coordinate system
COMMENT Coordinate system is one of E = Ecliptic, G = Galactic,
COMMENT C = Celestial, i.e. Equatorial, or S = Special
PIXSIZE = 2.592061 / Size in deg. of each side of the avg. QS pixel
PIXINDEX= 6 / Quad-sphere pixel resolution index
COMMENT / PIXINDEX = 6 for DMR/FIRAS and 9 for DIRBE
COMMENT
COMMENT This file is intended to familiarize users of the COBE data sets with
COMMENT the COBE sky cube representation and to facilitate usage of the data
COMMENT sets by providing sky coordinate information. The COBE sky cube is
COMMENT based upon the quadrilateralized spherical cube (quad-sphere)
COMMENT projection and the quad-tree pixel ordering scheme.
COMMENT
COMMENT NOTE: THIS FILE DOES NOT CONTAIN SCIENCE DATA FROM A COBE INSTRUMENT.
COMMENT FURTHERMORE, THE COORDINATES GIVEN IN THE BINARY TABLE EXTENSION
COMMENT CORRESPOND TO PIXEL CENTERS AND MAY NOT BE APPLICABLE TO SOME OF THE
COMMENT COBE DATA PRODUCTS (SEE THE INSTRUMENT EXPLANATORY SUPPLEMENTS FOR
COMMENT SPECIFIC ADVICE). WHEN AVAILABLE, USE THE COORDINATES GIVEN IN THE
COMMENT DATA FILES RATHER THAN THE ONES GIVEN HERE.
COMMENT
COMMENT The primary data array for this file gives the quad-sphere (QS)
COMMENT pixel number as a function of location on the COBE quad-sphere
COMMENT cube faces. The QS pixels are ordered according to the quad-tree
COMMENT nearest neighbor pixel numbering scheme, which is hierarchical.
COMMENT Because of this, the QS pixel numbers are not sequential along a
COMMENT row or column.
COMMENT
COMMENT Data in the primary FITS array are ordered such that the first
COMMENT row of pixel numbers is at the bottom and the last row of pixel
COMMENT numbers on a face is at the top, with the first QS pixel per
COMMENT face being in the lower right corner as shown in the diagram below.
COMMENT (See the section "Quad-tree pixelization scheme" below for more
COMMENT information on how the pixel numbers fall on the sky cube.)
COMMENT
COMMENT row -------------------
COMMENT n | | n = NAXIS1 = NAXIS2
COMMENT ^ | |
COMMENT | | |
COMMENT 2 | |
COMMENT 1 | |
COMMENT -------------------
COMMENT n <--- 2 1
COMMENT column
COMMENT
COMMENT This FITS file also contains one binary table extension after
COMMENT the primary data array. There are no other extensions. The
COMMENT binary table gives the coordinates at the QS pixel centers.
COMMENT Coordinate information is given in the binary table for various
COMMENT reasons. The primary reason is that the quad-tree ordering of
COMMENT the quad-sphere pixels is not linear. The CD matrix convention
COMMENT might handle this, but it is not yet a part of standard FITS.
COMMENT Since COBE data will be analyzed on a pixel-by-pixel basis as
COMMENT well as by analyzing the full sky, the binary table format seems
COMMENT to be the most conceptually clear. Furthermore, it is useful to
COMMENT give the coordinates of the pixel centers in equatorial and
COMMENT Galactic coordinates as well as the COBE standard ecliptic 2000,
COMMENT and this is readily done via the binary table format.
COMMENT
COMMENT COBE Data Sets:
COMMENT
COMMENT The FITS files containing COBE data consist either of a
COMMENT primary FITS header and primary data array, OR, a primary FITS
COMMENT header, a binary table extension header, and a binary table
COMMENT extension. The COBE data files, unlike this information file,
COMMENT do not have both a primary data array and a binary table extension.
COMMENT For those COBE data files that contain binary table extensions,
COMMENT there is only one binary table per file, and there are no other
COMMENT extensions in these files. In binary tables, the data consists of
COMMENT various parameters in fields (table columns) sequenced by quad-tree
COMMENT pixel number.
COMMENT
COMMENT Quadrilateralized Sky Cube Projection:
COMMENT
COMMENT COBE datasets are lists of records sequenced by pixel numbers
COMMENT defined in a quad-tree manner (see "Quad-tree Pixelization Scheme"
COMMENT below) on the faces of a cube. The cube faces are tangent plane
COMMENT projections of the celestial sphere. This is the quadrilateralized
COMMENT spherical (sky) cube (or quad-sphere) projection which gives
COMMENT equally spaced pixels of approximately equal area on the cube,
COMMENT which represent approximately equal areas on the sky.
COMMENT
COMMENT The COBE quadrilateralized spherical cube (CSC) projection
COMMENT conserves area to approximately 1% across the whole cube with
COMMENT a maximum discrepancy from equal area of only a few percent at
COMMENT the edges of the cube. Furthermore, the projection distorts
COMMENT shapes minimally. Beam shapes or point response functions will
COMMENT differ only slightly depending upon location on the quad-cube face.
COMMENT
COMMENT The six faces of the cube, each of dimension NAXIS1 x NAXIS2,
COMMENT are the six planes of the primary data array. The cube faces are
COMMENT numbered 0 through 5 corresponding to planes 1 through 6 (NAXIS3)
COMMENT in the primary data array, respectively.
COMMENT
COMMENT The dimensions of each face correspond to the COBE sky cube
COMMENT resolution index number given by PIXINDEX. The dimension of a
COMMENT side of each face (NAXIS1, which is necessarily the same value as
COMMENT NAXIS2) is 2**(PIXINDEX-1). Thus, the number of pixels in each
COMMENT face is NAXIS1 x NAXIS2 or 2**[2*(PIXINDEX-1)].
COMMENT
COMMENT The all-sky, skyward looking, unfolded cube is reassembled by
COMMENT arranging the faces in a sideways T with the bar on the right side:
COMMENT
COMMENT 0
COMMENT 4 3 2 1
COMMENT 5
COMMENT
COMMENT This corresponds to a 4*NAXIS1 by 3*NAXIS2 array as follows:
COMMENT
COMMENT -----------------
COMMENT | b | b | b | 0 | ^
COMMENT ----------------- |
COMMENT | 4 | 3 | 2 | 1 | 3*NAXIS2
COMMENT ----------------- |
COMMENT | b | b | b | 5 | v
COMMENT -----------------
COMMENT <-- 4*NAXIS1 --->
COMMENT
COMMENT where b stands for blanks.
COMMENT
COMMENT COBE data can be displayed on this unfolded cube by arranging
COMMENT the pixels in the binary table as they are arranged in the primary
COMMENT array of this file. For example, if the binary table for the COBE
COMMENT data set of interest looks like this (this is not necessarily the
COMMENT fields that are in the COBE data tables; the fields and data are
COMMENT for illustrative purposes only):
COMMENT
COMMENT QS_Pixel_Num Signal Error_in_Signal Ecl_Long Ecl_Lat
COMMENT 0 22 1 315.0 36.7
COMMENT 1 43 2 317.9 38.1
COMMENT 2 36 2 312.1 38.1
COMMENT 3 31 1 315.0 39.7
COMMENT .
COMMENT .
COMMENT .
COMMENT
COMMENT then the signal will be mapped where the pixel numbers are in
COMMENT face 0 (first plane) of the primary array:
COMMENT
COMMENT QS Pixel Numbers Signal
COMMENT 3 2 | ---> 31 36 |
COMMENT 1 0 | ---> 43 22 |
COMMENT ------ --------
COMMENT
COMMENT This is the quad-tree pixelization scheme described below.
COMMENT
COMMENT Note that the tabulated signal values may not necessarily refer
COMMENT to measurements made at the pixel centers; thus, the coordinates
COMMENT given may not be those of the pixel centers! If the coordinates
COMMENT given with the data set differ from those given in the binary
COMMENT table below, then they are not for pixel centers, and thus the
COMMENT data will be displayed off-center.
COMMENT
COMMENT Quad-tree Pixelization Scheme:
COMMENT
COMMENT Pixel numbers begin in the lower right corner of a cube face
COMMENT and increase in quad-tree fashion from right to left and bottom
COMMENT to top across the face. This "Z" pattern is followed throughout
COMMENT a face as shown by the following pixel numbers in the lower right
COMMENT corner of face 0:
COMMENT y
COMMENT
COMMENT 63 62 59 58 47 46 43 42 | 7
COMMENT 61 60 57 56 45 44 41 40 | 6 "Z" Pattern:
COMMENT 55 54 51 50 39 38 35 34 | 5
COMMENT 53 52 49 48 37 36 33 32 | 4 <---
COMMENT 31 30 27 26 15 14 11 10 | 3 ^
COMMENT 29 28 25 24 13 12 9 8 | 2 /
COMMENT 23 22 19 18 7 6 3 2 | 1 /
COMMENT 21 20 17 16 5 4 1 0 | 0 <---
COMMENT -----------------------
COMMENT x 7 6 5 4 3 2 1 0
COMMENT
COMMENT The quad-tree pixel ordering scheme is related to rasterized
COMMENT rectangular array positions as follows. The location within a
COMMENT face is specified by the 2*(PIXINDEX-1) least significant bits.
COMMENT (As described below, the most significant bits are used to
COMMENT identify the cube face.) The even least significant bits
COMMENT (0, 2, . . ., 2*(PIXINDEX-2)) specify the x, or horizontal,
COMMENT raster position, and the odd bits (1, 3, . . ., (2*PIXINDEX)-3)
COMMENT specify the y position. Changing the pixel resolution thus
COMMENT simply requires adding or deleting pairs of least significant
COMMENT bits; each pair represents a resolution change in the x and y
COMMENT face coordinates by a factor of 2.
COMMENT
COMMENT For example (at a PIXINDEX of 4) quad-tree pixel 24 in binary is
COMMENT
COMMENT 0 1 1 0 0 0
COMMENT y x y x y x
COMMENT
COMMENT Extracting the even and odd least significant bits gives:
COMMENT
COMMENT y = 010 = 2
COMMENT x = 100 = 4
COMMENT
COMMENT Writing the pixel numbers in binary form clarifies the mapping
COMMENT hierarchy:
COMMENT
COMMENT Col 7 6 5 4 3 2 1 0 Row
COMMENT 111111 111110 111011 111010 | 101111 101110 101011 101010 7
COMMENT 111101 111100 111001 111000 | 101101 101100 101001 101000 6
COMMENT 110111 110110 110011 110010 | 100111 100110 100011 100010 5
COMMENT 110101 110100 110001 110000 | 100101 100100 100001 100000 4
COMMENT --------------------------------+--------------------------------
COMMENT 011111 011110 011011 011010 | 001111 001110 | 001011 001010 3
COMMENT 011101 011100 011001 011000 | 001101 001100 | 001001 001000 2
COMMENT | ---------------+---------------
COMMENT 010111 010110 010011 010010 | 000111 000110 | 000011 000010 1
COMMENT 010101 010100 010001 010000 | 000101 000100 | 000001 000000 0
COMMENT
COMMENT Bit numbers 543210 543210 543210 543210 543210 543210
COMMENT
COMMENT The lines of dashes show how the hierarchy is built up.
COMMENT
COMMENT As illustrated below, a cube face is bisected (PIXINDEX-1)
COMMENT times to reach the pixel resolution. The figure depicts a
COMMENT face at a PIXINDEX of 4.
COMMENT PIXINDEX:
COMMENT -------------------------------------------- ^ ^ ^ ^
COMMENT | | | 11 | 10 | 4 | | |
COMMENT | | 11 |---10----| v 3 | |
COMMENT | | | 01 | 00 | | | |
COMMENT | 11 |---------10---------- v 2 |
COMMENT | | | | | |
COMMENT | | 01 | 00 | | |
COMMENT | | | | | |
COMMENT |---------------------+--------------------- v 1 (Whole
COMMENT | | | | Face)
COMMENT | | | |
COMMENT | | | |
COMMENT | 01 | 00 | |
COMMENT | | | |
COMMENT | | | |
COMMENT | | | |
COMMENT -------------------------------------------- v
COMMENT
COMMENT The face index is specified in the remaining Most Significant
COMMENT Bits, that is, in bits 2*(PIXINDEX-1) through 2*PIXINDEX. Thus
COMMENT for face 0, pixel 24, the binary number would be
COMMENT
COMMENT 0 0 0 0 1 1 0 0 0 ,
COMMENT | Face | Pixel number |
COMMENT
COMMENT whereas for pixel number 24 on face 5, the binary number would be
COMMENT
COMMENT 1 0 1 0 1 1 0 0 0 .
COMMENT | Face | Pixel number |
COMMENT
COMMENT The pixel numbers run sequentially from 0 on face 0 to (NAXIS1
COMMENT x NAXIS2 x NAXIS3) - 1 on face 5. The last pixel number in a
COMMENT face is (face number+1) * 2**[2*(PIXINDEX-1)] - 1. The first
COMMENT pixel number in a face is 0 for face 0, and 1 plus the last pixel
COMMENT number in the previous face for the other faces. Thus, for a
COMMENT PIXINDEX of 4 the pixel number illustrated above, pixel 24 on
COMMENT face 5, would be pixel number 344 (binary 101011000 = decimal 344)
COMMENT with respect to the whole cube.
COMMENT
COMMENT World Coordinate Information:
COMMENT
COMMENT World coordinates such as ecliptic, celestial, and Galactic
COMMENT are NOT linear across the COBE sky cube. As mentioned above,
COMMENT the coordinates of the center of each pixel are given in the
COMMENT binary table extension rather than by a CDELT or CD matrix
COMMENT convention. The following comments are given as a general
COMMENT description of how certain astronomical coordinate systems
COMMENT would project onto the cube.
COMMENT
COMMENT The COBE sky cube is defined using the ecliptic J2000 reference
COMMENT frame. With reference to this coordinate system, face 0 is centered
COMMENT around the North ecliptic pole (NEP), faces 1 through 4 are along
COMMENT the Ecliptic (each spanning 90 degrees of ecliptic longitude), and
COMMENT face 5 is centered around the South ecliptic pole (SEP). Ecliptic
COMMENT longitude increases from face 1 to face 4. The vernal equinox
COMMENT (0.0 ecliptic longitude and latitude) lies at the center of face 1.
COMMENT (Face 1 spans ecliptic longitudes from -45 (315) to +45 degrees.)
COMMENT The anti-vernal equinox point is at the center of face 3. Faces
COMMENT 1-4 include the ecliptic latitudes ranging from roughly -45 to +45
COMMENT degrees. Face 0 contains all ecliptic longitudes, and the
COMMENT latitudes around the North ecliptic pole, down to approximately
COMMENT +45 degrees. Face 5 contains all ecliptic longitudes, and the
COMMENT latitudes around the South ecliptic pole, up to approximately
COMMENT -45 degrees. The latitude ranges in each face are not exact
COMMENT because of the curvilinear nature of the coordinates on the
COMMENT COBE sky cube.
COMMENT
COMMENT The North Galactic Pole is on face 3 at J2000 ecliptic
COMMENT longitude 179.32095 and latitude 29.811954 degrees, and the
COMMENT Galactic center is on face 4 at J2000 ecliptic longitude
COMMENT 266.14097 and latitude -5.52967943 degrees. The South Galactic
COMMENT Pole is on face 1, and the Galactic anti-center is on face 2.
COMMENT Pixel numbers for these locations can be found in the binary
COMMENT extension table of this file.
COMMENT
COMMENT The ecliptic coordinates of the North Celestial Pole are
COMMENT (90.0,66.5607089) degrees, located on face 0.
COMMENT
COMMENT References:
COMMENT
COMMENT Chan, F.K. and O'Neill 1975. Feasibility Study of a Quadri-
COMMENT lateralized Spherical Cube Earth Data Base, Computer Sciences
COMMENT Corp., EPRF Tech. Report 2-75. Prepared for the Environmental
COMMENT Prediction Research Facility, Monterey, Calif.
COMMENT Greisen, Eric W. and Mark Calabretta 1993. Representations of
COMMENT Celestial Coordinates in FITS. Draft FITS proposal, NRAO.
COMMENT O'Neill, I.M. and Laubscher, R.E. 1976. Extended Studies of a
COMMENT Quadrilateralized Spherical Cube Earth Data Base, Computer
COMMENT Sciences Corp., EPRF Tech. Report 3-76. Prepared for the
COMMENT Environmental Prediction Research Facility, Monterey, Calif.
COMMENT White, R.A. and Mather, J.C. 1991. Databases from Cosmic
COMMENT Background Explorer (COBE) in Databases and On-Line Data in
COMMENT Astronomy, ed. M. Albrecht and D. Egret (Kluwer, Dordrecht,
COMMENT the Netherlands), pp. 29-34.
COMMENT White, Richard A. and Stemwedel, Sally W. 1992. "The Quadri-
COMMENT lateralized Spherical Cube and Quad-Tree for All Sky Data."
COMMENT In Astronomical Data Analysis Software and Systems I, Volume
COMMENT 25, edited by D.M. Worrall, C. Biemesderfer, and J. Barnes,
COMMENT pp. 379-381.
COMMENT
HISTORY Created by COBE project software facility UDF routine
HISTORY UDF_CREATE_INFO_FILES using FITSIO version 3.3 routines.
HISTORY Primary array created by COBE project software UIDL routine PIX2XY.
COMMENT End of creation history.
END
PIXCOORD
XTENSION= 'BINTABLE' / Binary table extension
BITPIX = 8 / Bits per pixel - 8 required for binary table
NAXIS = 2 / This is a table
NAXIS1 = 28 / Width of table row in bytes (7 4-byte cols.)
NAXIS2 = 6144 / Number of rows in table = number of QS pixels
PCOUNT = 0 / No data follows table in a "heap"
GCOUNT = 1 / Number of groups (1 required for bintable)
TFIELDS = 7 / Number of columns (fields) in the table
EXTNAME = 'PIXCOORD' / Label for this extension, which contains
COMMENT / coordinates for Quad-sphere pixel centers
EQUINOX = 2000.0 / Equinox for ecliptic and equatorial coords.
RADECSYS= 'FK5 ' / RA and Declination is mean place, after the
COMMENT / 1976 IAU system.
COMMENT
COMMENT This table gives the ecliptic J2000.0, equatorial J2000.0, and
COMMENT Galactic system II (1950.0) coordinates for the center of each
COMMENT quad-sphere pixel given in the primary array above at resolution
COMMENT index given by PIXINDEX in the primary header.
COMMENT
COMMENT CAVEAT:
COMMENT
COMMENT NOTE: THIS FILE DOES NOT CONTAIN SCIENCE DATA FROM A COBE INSTRUMENT.
COMMENT FURTHERMORE, THE COORDINATES GIVEN IN THE BINARY TABLE EXTENSION
COMMENT CORRESPOND TO PIXEL CENTERS AND MAY NOT BE APPLICABLE TO SOME OF THE
COMMENT COBE DATA PRODUCTS (SEE THE INSTRUMENT EXPLANATORY SUPPLEMENTS FOR
COMMENT SPECIFIC ADVICE). WHEN AVAILABLE, USE THE COORDINATES GIVEN IN THE
COMMENT DATA FILES RATHER THAN THE ONES GIVEN HERE.
COMMENT
TTYPE1 = 'QSPIXEL ' / quad-sphere pixel number on cube faces
TFORM1 = '1J ' / 32 bit, twos complement integer
TUNIT1 = ' ' / unitless
TTYPE2 = 'ELON-CSC' / J2000.0 ecliptic longitude,
COMMENT / COBE Sky Cube projection
TFORM2 = '1E ' / floating point scalar, single precision
TUNIT2 = 'deg ' / coordinate units
TTYPE3 = 'ELAT-CSC' / J2000.0 ecliptic latitude,
COMMENT / COBE Sky Cube projection
TFORM3 = '1E ' / floating point scalar, single precision
TUNIT3 = 'deg ' / coordinate units
TTYPE4 = 'RA---CSC' / J2000.0 right ascension,
COMMENT / COBE Sky Cube projection
TFORM4 = '1E ' / floating point scalar, single precision
TUNIT4 = 'deg ' / coordinate units
TTYPE5 = 'DEC--CSC' / J2000.0 declination,
COMMENT / COBE Sky Cube projection
TFORM5 = '1E ' / floating point scalar, single precision
TUNIT5 = 'deg ' / coordinate units
TTYPE6 = 'GLON-CSC' / Galactic system II (1950) longitude,
COMMENT / COBE Sky Cube projection
TFORM6 = '1E ' / floating point scalar, single precision
TUNIT6 = 'deg ' / coordinate units
TTYPE7 = 'GLAT-CSC' / Galactic system II (1950) latitude,
COMMENT / COBE Sky Cube projection
TFORM7 = '1E ' / floating point scalar, single precision
TUNIT7 = 'deg ' / coordinate units
HISTORY Binary table coordinates calculated by COBE
HISTORY project software facilities XTR and XCC.
COMMENT End of creation history.
END