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J/AJ/154/196
  Properties of comet 49P/Arend-Rigaux, 1984-2012 (Eisner+, 2017)
timeSerie
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1.J/AJ/154/196/table1*Summary of Comet 49P/Arend-Rigaux Observations and Geometric Parameters during Our 2012 Observations (Note) (39 rows)
2.J/AJ/154/196/table2Table of CCD Photometry [timeSerie](Light curves)
timeSerie
(4722 rows)
3.J/AJ/154/196/table4Photometry Observing Circumstances and Fluorescence Efficiencies for Comet 49P/Arend-Rigaux (10 rows)
4.J/AJ/154/196/table56Photometric fluxes, aperture abundances (table 5) and photometric production rates (table 6) for comet 49P/Arend-Rigaux (13 rows)
5.J/AJ/154/196/table7Dates, Times, and Magnitudes Extracted from Wisniewski et al. (1986acm..proc..337W) for the 1985 Observations [timeSerie](Light curve)
timeSerie
(148 rows)

 
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Column  Constraint Explain   (UCD)
  (ALL)recno  Record number assigned by the VizieR team. Should Not be used for identification. (meta.record)
  (1+2+5)Date "Y:M:D" (n)Observation date (UT) (YYYY-MMM-DD) (time.epoch;obs)
  (1)Start "h:m:s" (n)Start time of observation (UT) (time.start;obs)
  (1)End "h:m:s" (n)End time of observation (UT) (time.end;obs)
  (1+3+4)DT d [98.22/208.15] Time since perihelion (2011 October 19.1) {Detla}T (time.interval)
  (1+3)Diam m [0.8/1.1] Telescope diameter (phys.size.diameter;instr.tel)
  (1+3)rH AU [1.774/2.507] Heliocentric distance rH (pos.distance;pos.heliocentric)
  (1+3)Delta AU [1.027/1.964] Geocentric distance Δ (pos.distance;pos.geocentric)
  (1)PA deg [0.2/358] Position angle of the Sun (pos.posAng)
  (1+3)alpha deg [13.4/27.7] Solar phase angle α (pos.phaseAng)
  (1)Dt h [0.142/0.272] Light travel time Δt (time.epoch)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (1)Dm1 mag [-4.345/-2.214] Magnitude necessary to correct for changes in the geometry (Δm1=-5log(rhΔ)-αβ) (phot.mag)
  (1)Dm2 mag [-0.115/0.293] Offset necessary to make the data on all nights peak at the same magnitude, after correcting for geometry (phot.mag)
  (1)sigma(m)   [0.0016/0.0058] Average uncertainty calculated for the night σm (stat.stdev)
  (1)Rad arcsec [1.6/4.6] Radius of the aperture used to extract the lightcurves (see Section 2.3) (phys.angSize;src)
  (1)Weather (char) Weather conditions (meta.note)
  (2+5)JD (char) d UT date converted in JD by CDS (time.epoch)
  (2+5)Time h [2.643/13.672] Fractional UT time at midpoint of the exposure, uncorrected for light travel time (time.epoch)
  (2)Tel   [1/2] Telescope used (Note 1)   (instr.setup)
  (2)Rmag mag [16.09/18.75] Observed R-band magnitude (Note 2)   (phot.mag;em.opt.R)
  (2)Rmag-c mag [12.79/14.71] Observed R-band magnitude corrected (Note 3)   (phot.mag;em.opt.R)
  (3+4)Date (char) Observation date (UT) (YYYY-MMM-DD.dd) (time.epoch;obs)
  (3)logA [-] [0.08/0.45] Phase adjustment logA(0°)fρ (Note 1)   (stat.fit.param)
  (3)Vel km/s [-9.8/8.9] Velocity (phys.veloc)

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(n) indicates a possible blank or NULL column(i)indexed column
  (3)logL/N(OH) [10-7W] [-15.07/-14.889] Fluorescence efficiency for OH (in erg/s/molecule) (Note 2)   (stat.fit.param)
  (3)logL/N(NH) [10-7W] [-13.514/-13.355] Fluorescence efficiency for NH (in erg/s/molecule) (Note 2)   (stat.fit.param)
  (3)logL/N(CN) [10-7W] [-12.876/-12.654] Fluorescence efficiency for CN (in erg/s/molecule) (Note 2)   (stat.fit.param)
  (4)Ap arcsec [20/97.2] Aperture size (phys.angSize;instr.fov)
  (4)log(rho) km [3.63/4.59] Log aperture size (instr.fov)
  (4)logF(OH) [mW/m2] (n) [-11.92/-11.27] Log emission band flux for OH (in erg/cm2/s) (phot.flux)
  (4)logF(NH) [mW/m2] (n) [-13.37/-11.9] Log emission band flux for NH (in erg/cm2/s) (phot.flux)
  (4)logF(CN) [mW/m2] (n) [-12.73/-11.46] Log emission band flux for CN (in erg/cm2/s) (phot.flux)
  (4)logF(C3) [mW/m2] (n) [-12.46/-11.53] Log emission band flux for C3 (in erg/cm2/s) (phot.flux)
  (4)logF(C2) [mW/m2] [-13/-11.58] Log emission band flux for C2 (in erg/cm2/s) (phot.flux)
  (4)logF(UV) [10-2W/m2/nm](n) [-15.61/-14.13] Log continuum flux in UV filter (in erg/cm2/s/Å) (Note G1)   (phot.flux;em.UV)
  (4)logF(B) [10-2W/m2/nm](n) [-14.57/-13.97] Log continuum flux in blue filter (in erg/cm2/s/Å) (Note G1)   (phot.flux.density;em.opt)
  (4)logF(G) [10-2W/m2/nm] [-14.59/-13.8] Log continuum flux in green filter (in erg/cm2/s/Å) (Note G1)   (phot.flux.density;em.opt)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)logM(rho)OH [-] (n) [29.99/31.36] OH aperture abundance (in molecule) (phys.abund)
  (4)logM(rho)NH [-] (n) [27.04/29.2] NH aperture abundance (in molecule) (phys.abund)
  (4)logM(rho)CN [-] (n) [26.98/28.99] CN aperture abundance (in molecule) (phys.abund)
  (4)logM(rho)C3 [-] (n) [26.92/28.44] C3 aperture abundance (in molecule) (phys.abund)
  (4)logM(rho)C2 [-] (n) [26.73/28.74] C2 aperture abundance (in molecule) (phys.abund)
  (4)log(rH) [AU] [0.138/0.221] Log heliocentric distance (pos.distance;pos.heliocentric)
  (4)logQ(OH) [s-1] (n) [26.79/27.45] OH production rate (in molecule/s) (stat.fit.param)
  (4)E_logQ(OH) [s-1] (n) [0.03/0.13] Upper limit uncertainty in logQ(OH) (Note 1)   (stat.error;stat.max)
  (4)logQ(NH) [s-1] (n) [24.04/25.18] NH production rate (in molecule/s) (stat.fit.param)
  (4)E_logQ(NH) [s-1] (n) [0.01/0.17] Upper limit uncertainty in logQ(NH) (Note 1)   (stat.error;stat.max)
  (4)logQ(CN) [s-1] (n) [23.95/24.64] CN production rate (in molecule/s) (stat.fit.param)
  (4)E_logQ(CN) [s-1] (n) [0.02/0.08] Upper limit uncertainty in logQ(CN) (Note 1)   (stat.error;stat.max)
  (4)logQ(C3) [s-1] [23.53/24.38] C3 production rate (in molecule/s) (stat.fit.param)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
  (4)E_logQ(C3) [s-1] [0/0.16] Upper limit uncertainty in logQ(C3) (Note 1)   (stat.error;stat.max)
  (4)logQ(C2) [s-1] (n) [1.73/24.58] C2 production rate (in molecule/s) (stat.fit.param)
  (4)E_logQ(C2) [s-1] (n) [0.04/0.14] Upper limit uncertainty in logQ(C2) (Note 1)   (stat.error;stat.max)
  (4)logA(UV) [cm] (n) [0.64/1.93] Now standard proxy for dust production in UV filter (Note G1)   (stat.fit.param)
  (4)E_logA(UV) [cm] (n) [0.02/0.54] Upper limit uncertainty in logA(UV) (Note 1)   (stat.error;stat.max)
  (4)logA(B) [cm] (n) [1.1/1.94] Now standard proxy for dust production in blue filter (Note G1)   (stat.fit.param)
  (4)E_logA(B) [cm] (n) [0.01/0.16] Upper limit uncertainty in logA(B) (Note 1)   (stat.error;stat.max)
  (4)logA(G) [cm] (n) [1.06/1.99] Now standard proxy for dust production in green filter (Note G1)   (stat.fit.param)
  (4)E_logA(G) [cm] (n) [0.01/0.14] Upper limit uncertainty in logA(G) (Note 1)   (stat.error;stat.max)
  (4)logQ(H2O) [-] (n) [26.82/27.5] Water production rate (stat.fit.param)
  (5)mag mag [5.72/6.328] Magnitude from Wisniewski et al. (1986acm..proc..337W) (phot.mag)

ALL cols
    
(n) indicates a possible blank or NULL column(i)indexed column
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