CAMEX-4 JPL Laser Hygrometer

1. Introduction
2. File Naming Convention
3. Data Format
Table 1
Table 2
4. References
5. Contact Information

1. Introduction

A hygrometer is an instrument which determines the water vapor content of a parcel of air. Direct measurement of water vapor content has been difficult until fairly recently. Historically, typical hygrometers determined the water vapor content of the atmosphere indirectly by measuring the wet bulb temperature (e.g. a psychrometer) or the dewpoint (e.g. using a chilled mirror dewpoint hygrometer). Determination of water vapor content is then determined using tables for formulii from either of these values.

Laser hygrometers measure the amount of water vapor directly via absorption of laser light. If the initial strength of the laser and the path length through which it travels is known, measuring the diminution of its intensity will give an indication of the amount of water vapor present. The JPL Laser Hygrometer uses this principle in an open-path instrument; that is, the laser path is in the free stream passing by the aircraft.

A tunable diode laser operating at 1.37mm is mounted in a window blank (an aluminum panel which replaces the passenger window) on the port side of the NASA DC-8. The laser and detector are mounted on a circular aluminum disk in the upper rectangular 'arm' of the instrument. Exactly 25cm away is a 0.5 inch diameter mirror from which the laser beam is reflected. This gives a path length of 50cm- from the laser, down to the mirror and back to the detector. The length of the arms insures that the instrument is well outside the boundary layer of the aircraft minimizing effects of the aircraft itself upon the measurements.

2. File Naming Convention

Each mission (no more than one per day) for which there were data collected has a file of the form:

c4djlh_2001.267_010418.dat
where c4jlh represents a CAMEX-4 dataset for the JPL Laser Hygrometer, 2001.267 is the yyyy.ddd and 010418 is the mission number.

3. Data Format

The data is in Gains Hipskind format (see link for tutorial). This ascii based file is comprised of two sections. The first section is the header and contains information about the date of the data, processing date, and unit designations for each of the data columns. Below is an example of the header data. To the right of several of the rows are key letters in red that reference columns in the following data table (table 2).

28 1001 Herman, Robert L. JPL JPL Laser Hygrometer CAMEX-4 1 1 s001 09 24 2002 06 20 0 Elapsed UT seconds from 0 hours on takeoff date 10 1.0e-6 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 99999 99999 99999 99999 99999 99999 99999 99999 99999 99999 H2O volume mixing ratio Static Pressure (mb), from MMS Static Temperature (K) from MMS H2O partial pressure (mb) Dew point temperature (C) Saturation v.p. with respect to H2O (mb) Saturation v.p. with respect to ice (mb) Relative Humidity (%, relative to ice) Relative Humidity (%, relative to liquid water) Grams H2O per kilogram of air 3 Water vapor measured by the JPL Laser Hygrometer utilizes static temperature and pressure measured by MMS.

Table 1. Header

The second part of the datafile are the actual data measurements themselves. An example is shown below.

  UT (s)   ppmv    P(mb)  T(K)     Ep(mb)   Td(C)   Esh(mb)   Esi(mb)   %RH(ice) %RH(water) g/kg              
 68254.0  1161.35  422.80 258.60   0.49102  -27.56   1.98328   1.72127  28.53    24.76    0.7258
 68255.0   920.16  422.40 258.50   0.38868  -29.83   1.96702   1.70551  22.79    19.76    0.5751
 68257.0  1229.03  421.60 258.40   0.51816  -27.03   1.95088   1.68989  30.66    26.56    0.7681
 68258.0  1311.03  421.20 258.30   0.55221  -26.40   1.93486   1.67439  32.98    28.54    0.8194
 68260.0  1308.85  420.40 258.20   0.55024  -26.44   1.91896   1.65903  33.17    28.67    0.8180
 68261.0  1376.27  420.00 258.20   0.57803  -25.95   1.91896   1.65903  34.84    30.12    0.8602
 68263.0  1425.51  419.20 258.00   0.59758  -25.62   1.88750   1.62868  36.69    31.66    0.8909

Table 2. Data

4. References

See "Open-Path, Near-IR Tunable Diode Laser Spectrometer for Atmospheric Measurements of H₂O", R.D. May, J. Geophys. Res., 103, 19,161-19,172 (1998).

5. Contact Information

Data can be ordered and questions addressed at http://ghrc.nsstc.nasa.gov/.

To order this data or for further information, please contact:
Global Hydrology Resource Center
User Services
320 Sparkman Drive
Huntsville, AL 35805
Phone: 256-961-7932
E-mail: ghrc@eos.nasa.gov

NASA Information Contact: Michael Goodman, Global Hydrology and Climate Center
GHRC Web Curator: GHRC Web Team
Last update: Tuesday, 12-Jun-2007 16:56:46 CDT
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