Vertical cavity laser hygrometer for the National Science Foundation Gulfstream-V aircraft

A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream‐V aircraft. This instrument operates from the surface to the lower stratosphere, measuring 6 orders of magnitude in water vapor concentration. The optica...

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Published inJournal of Geophysical Research: Atmospheres Vol. 115; no. D20; pp. 1RR - n/a
Main Authors Zondlo, Mark A., Paige, Mark E., Massick, Steven M., Silver, Joel A.
Format Journal Article
LanguageEnglish
Published Washington, DC Blackwell Publishing Ltd 27.10.2010
American Geophysical Union
Subjects
Aircraft
Atmospheric sciences
Earth sciences
Earth, ocean, space
Exact sciences and technology
Geophysics
hygrometer
Hygrometry
laser sensor
Scientific apparatus & instruments
Stratosphere
Troposphere
Water vapor
altitude
laser methods
detection limit
foundations
concentration
pressure
Real time system
Optical system
Absorption line
instruments
corrections
water vapor
temperature
performances
stratosphere
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Abstract A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream‐V aircraft. This instrument operates from the surface to the lower stratosphere, measuring 6 orders of magnitude in water vapor concentration. The optical system consists of an open‐path multiple‐pass cell mounted on an aerodynamic pylon. The self‐operating hygrometer reports concentration in real time at 25 Hz and uses a novel approach for fitting the data with minimal correction terms for changes in ambient pressure and temperature. The instrument intercompares with existing research grade hygrometers in the 2%–10% range. A minimum detection limit of 3.6 × 1011 molecules/cm2 or 0.08 ppmv at 15 km altitude conditions is achieved. The design rationale, operation, and flight performance of the hygrometer are described in this work.
AbstractList A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream‐V aircraft. This instrument operates from the surface to the lower stratosphere, measuring 6 orders of magnitude in water vapor concentration. The optical system consists of an open‐path multiple‐pass cell mounted on an aerodynamic pylon. The self‐operating hygrometer reports concentration in real time at 25 Hz and uses a novel approach for fitting the data with minimal correction terms for changes in ambient pressure and temperature. The instrument intercompares with existing research grade hygrometers in the 2%–10% range. A minimum detection limit of 3.6 × 10 11 molecules/cm 2 or 0.08 ppmv at 15 km altitude conditions is achieved. The design rationale, operation, and flight performance of the hygrometer are described in this work.
A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream-V aircraft. This instrument operates from the surface to the lower stratosphere, measuring 6 orders of magnitude in water vapor concentration. The optical system consists of an open-path multiple-pass cell mounted on an aerodynamic pylon. The self-operating hygrometer reports concentration in real time at 25 Hz and uses a novel approach for fitting the data with minimal correction terms for changes in ambient pressure and temperature. The instrument intercompares with existing research grade hygrometers in the 2%10% range. A minimum detection limit of 3.6 × 1011 molecules/cm2 or 0.08 ppmv at 15 km altitude conditions is achieved. The design rationale, operation, and flight performance of the hygrometer are described in this work.
A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream-V aircraft. This instrument operates from the surface to the lower stratosphere, measuring 6 orders of magnitude in water vapor concentration. The optical system consists of an open-path multiple-pass cell mounted on an aerodynamic pylon. The self-operating hygrometer reports concentration in real time at 25 Hz and uses a novel approach for fitting the data with minimal correction terms for changes in ambient pressure and temperature. The instrument intercompares with existing research grade hygrometers in the 2%-10% range. A minimum detection limit of 3.6 × 10^sup 11^ molecules/cm^sup 2^ or 0.08 ppmv at 15 km altitude conditions is achieved. The design rationale, operation, and flight performance of the hygrometer are described in this work.
Author Silver, Joel A.
Massick, Steven M.
Zondlo, Mark A.
Paige, Mark E.
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  givenname: Mark E.
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  surname: Silver
  fullname: Silver, Joel A.
  organization: Southwest Sciences, Inc., New Mexico, Santa Fe, USA
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ContentType Journal Article
Copyright Copyright 2010 by the American Geophysical Union.
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Issue D20
Keywords altitude
laser methods
detection limit
foundations
concentration
pressure
Real time system
Optical system
Absorption line
instruments
corrections
water vapor
temperature
performances
stratosphere
Language English
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PublicationTitle Journal of Geophysical Research: Atmospheres
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Snippet A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream‐V aircraft....
A vertical cavity diode laser hygrometer using two absorption lines near 1854 nm has been developed for the National Science Foundation Gulfstream-V aircraft....
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SubjectTerms Aircraft
Atmospheric sciences
Earth sciences
Earth, ocean, space
Exact sciences and technology
Geophysics
hygrometer
Hygrometry
laser sensor
Scientific apparatus & instruments
Stratosphere
Troposphere
Water vapor
Title Vertical cavity laser hygrometer for the National Science Foundation Gulfstream-V aircraft
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