113 1010
Coffey, Michael T. and James W. Hannigan
National Center for Atmospheric Research, Boulder, CO, USA 
Fourier transform spectrometer (FTS) aboard the DC-8 
PAVE   Takeoff date:20050114
1 1
2005 01 14   2005 05 24
0
Time (UT), seconds after 00:00 of a/c launch date   
42
1e+13 1e+13 1e+16 1e+16 1e+13 1e+13 1e+16 1e+16 1e+17 1e+17 1e+15 1e+15 
1e+14 1e+14 1e+13 1e+13 1e+17 1e+17 1e+19 1e+19 1e+13 1e+13 1e+13 1e+13 
1e+13 1e+13 1e+13 1e+13 1e+17 1e+17 1e+17 1e+17 1e+13 1e+13 1e+13 1e+13 
1e+13 1e+13 1e+13 1e+13 1e+13 1e+13 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
HF vertical column amount [molecules/cm**2]
HF estimated error in total column [molecules/cm**2]
O3 vertical column amount [molecules/cm**2]
O3 estimated error in total column [molecules/cm**2]
HCL vertical column amount [molecules/cm**2]
HCL estimated error in total column [molecules/cm**2]
N2O vertical column amount [molecules/cm**2]
N2O estimated error in total column [molecules/cm**2]
CH4 vertical column amount [molecules/cm**2]
CH4 estimated error in total column [molecules/cm**2]
CO vertical column amount [molecules/cm**2]
CO estimated error in total column [molecules/cm**2]
HNO3 vertical column amount [molecules/cm**2]
HNO3 estimated error in total column [molecules/cm**2]
CLONO2 vertical column amount [molecules/cm**2]
CLONO2 estimated error in total column [molecules/cm**2]
H2O vertical column amount [molecules/cm**2]
H2O estimated error in total column [molecules/cm**2]
N2 vertical column amount [molecules/cm**2]
N2 estimated error in total column [molecules/cm**2]
COF2 vertical column amount [molecules/cm**2]
COF2 estimated error in total column [molecules/cm**2]
NO vertical column amount [molecules/cm**2]
NO estimated error in total column [molecules/cm**2]
NO2 vertical column amount [molecules/cm**2]
NO2 estimated error in total column [molecules/cm**2]
CCL2F2 vertical column amount [molecules/cm**2]
CCL2F2 estimated error in total column [molecules/cm**2]
HDO vertical column amount [molecules/cm**2]
HDO estimated error in total column [molecules/cm**2]
CH3D vertical column amount [molecules/cm**2]
CH3D estimated error in total column [molecules/cm**2]
C2H6 vertical column amount [molecules/cm**2]
C2H6 estimated error in total column [molecules/cm**2]
OCS vertical column amount [molecules/cm**2]
OCS estimated error in total column [molecules/cm**2]
H2CO vertical column amount [molecules/cm**2]
H2CO estimated error in total column [molecules/cm**2]
HCN vertical column amount [molecules/cm**2]
HCN estimated error in total column [molecules/cm**2]
CCL3F vertical column amount [molecules/cm**2]
CCL3F estimated error in total column [molecules/cm**2]
11
1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0
9999 9999 9999 9999 9999 9999 9999 9999 9999 9999 9999
Day of year of observation
Year of observation 
Month of observation 
Day of observation 
Hour of observation 
Minute of observation 
Second of observation 
Latitude of observation (degree N)
Longitude of observation (degree W)
Altitude of observation (km)       
Solar zenith angle (degree)
31
Data were taken by a 0.06cm-1 resolution Fourier transform spectrometer (FTS) operated
aboard the NASA DC-8 aircraft.  The absorption of infrared solar radiation along a slant
path to the sun is recorded from 2 to 15 micrometers.  Six spectral filters are used to
cover the region from 2-15 microns.  An interferogram is recorded in about 10 seconds.
Interferograms are transformed to produce spectra.  Column amounts are retrieved by
fitting the observed spectra using the non-linear least squares fitting code SFIT2
that employs an Optimal Estimation retrieval algorithm.  Version 3.90i of the SFIT2 code
was used. The HITRAN absorption line list with updates to 2004 is used in the forward 
calculation.  Temperarture profiles are derived from NCEP analyses for each day. 
Observations were made through an IR transmitting window in the right side
of the aircraft at solar elevations between 10 and 0 degrees; usually from the maximum
aircraft altitude of 39,000 to 41,000 ft (11.88 to 12.49 km).  Vertical column amounts
are reported above an altitude of 13 km.  Details of the instrumentation and method may
be found in:

Airborne spectroscopic observations of chlorine activation and de-nitrification in the 
1999/2000 winter Arctic stratosphere during SOLVE, M. T. Coffey, W. G. Mankin,
J. W. Hannigan, and G. C. Toon, J. Geophys. Res., 107, 8303, 2002.

Intercomparison of retrieval codes used for the analysis of high-resolution, ground-based 
FTIR measurements, F. Hase, J. W. Hannigan, M. T. Coffey, A. Goldman, M. Hopfner, 
N. B. Jones, C. P. Rinsland, S. W. Wood, Quant. Spectrosc. Radiat. Transfer, 87, 25-52, 2004.  

Contacts:
Michael T. Coffey
James W. Hannigan
NCAR
PO Box 3000
Boulder, CO 80307
303 497 1407
coffey@ucar.edu, jamesw@ucar.edu
6
SECONDS(UT) DOY YEAR MONTH DAY  HOUR MIN SEC  LAT LON ALT SZA
     HF ERR      O3 ERR     HCL ERR     N2O ERR     CH4 ERR      CO ERR 
   HNO3 ERR  CLONO2 ERR     H2O ERR      N2 ERR    COF2 ERR      NO ERR 
    NO2 ERR  CCL2F2 ERR     HDO ERR    CH3D ERR    C2H6 ERR     OCS ERR 
   H2CO ERR     HCN ERR   CCL3F ERR 

002106 015 2005 01 15 00 35 07 +35.25 +120.37  11.88 84.18
00098 00006 00674 00036 00240 00012 00079 00005 00047 00005 00114 00010 
99999 99999 99999 99999 00157 00011 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 00044 00005 99999 99999 
99999 99999 00053 00005 99999 99999 
002236 015 2005 01 15 00 37 16 +35.06 +120.20  11.88 84.56
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00237 00020 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
002640 015 2005 01 15 00 44 01 +34.37 +119.66  11.88 85.80
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00261 00023 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
002865 015 2005 01 15 00 47 45 +33.98 +119.38  11.88 86.49
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00084 00006 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 00140 00008 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
002999 015 2005 01 15 00 49 59 +33.75 +119.21  11.88 86.91
00096 00006 00659 00035 00238 00012 00079 00004 00045 00005 00113 00010 
99999 99999 99999 99999 00149 00010 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 00047 00005 00114 00011 
99999 99999 00065 00007 99999 99999 
003093 015 2005 01 15 00 51 33 +33.56 +119.09  11.88 87.24
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00249 00022 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
003445 015 2005 01 15 00 57 25 +32.98 +118.69  11.88 88.32
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00272 00024 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999 
003538 015 2005 01 15 00 58 58 +32.81 +118.57  11.89 88.63
99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
00080 00006 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 00135 00008 99999 99999 99999 99999 99999 99999 99999 99999 
99999 99999 99999 99999 99999 99999