JPL Laser Hygrometer

Status

Status
Operational
Operated By
PI
Replaced By

The JPL Laser Hygrometer (JLH) is an autonomous spectrometer to measure atmospheric water vapor from airborne platforms. It is designed for high-altitude scientific flights of the NASA ER-2 aircraft to monitor upper tropospheric (UT) and lower stratospheric (LS) water vapor for climate studies, atmospheric chemistry, and satellite validation. JLH will participate in the NASA SEAC4RS field mission this year. The light source for JLH is a near-infrared distributed feedback (DFB) tunable diode laser that scans across a strong water vapor vibrational-rotational combination band absorption line in the 1.37 micrometer band. Both laser and detector are temperatureā€stabilized on a thermoelectrically-cooled aluminum mount inside an evacuated metal housing. A long optical path is folded within a Herriott Cell for sensitivity to water vapor in the UT and LS. A Herriott cell is an off-axis multipass cell using two spherical mirrors [Altmann et al., 1981; Herriott et al., 1964]. The laser beam enters the Herriott cell through a hole in the mirror that is closest to the laser. The laser beam traverses many passes of the Herriott cell and then returns through the same mirror hole to impinge on a detector.

Instrument Type
Measurements
Recent Missions
(ER-2 - AFRC)
;
(WB-57 - JSC)
;
(WB-57 - JSC)
;
(WB-57 - JSC)
;
(WB-57 - JSC)
;
(WB-57 - JSC)
Point(s) of Contact
Range of Measurement
In situ
Measurement Sampling Rate
1.00 Hz
Measurement Wavelengths
1370 nm
Weight
13.00 kg
Size
Length
41.00 cm
(L) x
Width
51.00 cm
(W) x
Height
22.00 cm
(H)
Power:
100.00 W
Location
Measurement is made in an external cell so there is no inlet.
Notes
Detection range: 1 to 500 ppmv (limited by optical interference fringes)
Pressure range: 50 to 500 hPa
Accuracy: 10%
Precision: The greater of 1% or 0.05 ppmv
Mission-Specific Writeups
TRL
8
Publications

 

Disclaimer: This material is being kept online for historical purposes. Though accurate at the time of publication, it is no longer being updated. The page may contain broken links or outdated information, and parts may not function in current web browsers. Visit https://espo.nasa.gov for information about our current projects.