All Publications
Below is the combined list of references from refs_sat.bib and
refs_external.bib. It is intended for our group's internal use.
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2c-ice
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a-train
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abs lookup
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absorption
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active
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aerosol
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aerosols
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age of air
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aggregation
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airs
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albedo
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algorithm
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amsos
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amsu
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annual cycle
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anomalies
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aqua
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ar4
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ar5
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arctic
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arm
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arts
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arts-dev
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asr
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assimilation
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astronomy
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astrophysics
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asymmetry
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atmosphere
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atmospheric composition
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atmospheric dynamics
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atmospheric profiles
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atsr-2
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avhrr
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bachelor thesis
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backscattering
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basics
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bayes
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bias
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biomass
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book
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calculation
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calculations
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calibration
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calipso
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ccn
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cdr
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ceres
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cfmip
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chemistry
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cia
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ciraclim
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cirrus
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cirrus anvil sublimation
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cirrus cloud
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cirrus clouds
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cirrusstudy
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ciwsir/cloudice
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claus
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cliccs
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climate
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climate change
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climate dynamics
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climate feedbacks
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climate sensitivity
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climate sensivity
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climate variability
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climatology
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cloud feedback
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cloud forcing
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cloud fraction
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cloud ice
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cloud ice mission
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cloud optical thickness
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cloud properties
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cloud radiative effects
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cloud radiative forcing
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cloud regimes
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cloud top pressure
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cloudice mission
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clouds
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cloudsat
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clustering
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cmip3
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cmip5
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cmip6
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cmsaf
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co2
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collocation
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collocations
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comparison
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computer science
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continua
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contrail
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convection
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convective clouds
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convective processes
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convective self-aggregation
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correlated k
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cosmic background
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cosmic rays
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cosp
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cost 723 qjrms
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cross-calibration
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cth
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cumulus
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dardar
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data assimilation
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data bases
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dda
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deep convection
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delta m
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dimer
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disort
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diurnal cycle
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dlr-smiles
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dmsp
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documentation
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doppler
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droplet size
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dynamics
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earth
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earthcare
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ec earth
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echam
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ecmwf
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effective radius
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electromagnetism
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electron content
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elevation
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elevation satellite-2
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emd
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emde
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emissivity
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enso
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eof-pca-svd
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erbe
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error assessment
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ers
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eruption
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esa planetary
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exoplanets
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extraterrestrial
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fall speed
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far-infrared
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faraday-voigt
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fcdr
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feedback
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feedbacks
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fingerprinting
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flux uav
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forcing
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forest fire
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fox19_airborne_amt.pdf
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friend
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fun
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fuzzy inference system
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fuzzy logic
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gcm
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genesis
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geostationary
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gerrit_erca
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global warming
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gnss
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goes
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gps
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gras
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graupel
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gravitational lensing
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greenhouse effect
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ground-based
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groundbased
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habil
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hadley circulation
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hail
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hamburg
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heating rate
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heating rates
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herschel
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hiatus
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hirs
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history
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hsb
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humidity
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hydrological sensitivity
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hydrological sensivity
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hydrometeors
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iasi
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ice
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ice clouds
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ice crystal growth
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ice nucleation
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ice water
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icesat-2
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ici
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icon
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icz
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in situ
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infrared
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infrared sounder
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instruments
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inter-calibration
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intercalibration
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intercomparison
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interference
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inverse modelling
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ipcc
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ir
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ir/vis
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iris
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isccp
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ismar
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isotopes
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itcz
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iwc
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iwp
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iwv
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john
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jupiter
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kalpana
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kessler scheme
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lblrtm
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licentiate thesis
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lidar
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limb effect
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limb sounding
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limb-correction
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linemixing
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lineshape
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liquid water
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liquid water path
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longwave radiation
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low-cloud feedback
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magnetic field
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magnetism
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mars
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mas
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mass-dimension relation
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master thesis
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masters thesis
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math
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megha-tropiques
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mendrok
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mesoscale organization
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meteorology
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meteosat
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methane ocean
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metop
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mhs
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microphysics
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microwave
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microwave humidity
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microwave radiometry
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milz
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mipas
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mirs
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misr
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mixed phase
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mls
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model
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modeling
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models
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modis
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monte carlo
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moon
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mspps
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msu
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mth
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multi-moment scheme
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multisensor
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mwhs
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mwi
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net radiation
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neural network
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nicam
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nlte
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noaa
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nonsphericity
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npoess
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observation
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ocean
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ocean reflection
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ocean-atmosphere interactions
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odin
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olr
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one-moment scheme
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open loop
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optical
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optical depth
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optical properties
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optics
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orbital drift
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orbital drift correction
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orbits
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ozone
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pacific ocean
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particle orientation
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particle shape
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particle size
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particle size distribution
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passive
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patmos-x
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phase function
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phd thesis
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planetary evolution
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polarimetry
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polarization
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polder
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potss
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precipitation
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profile datasets
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programming
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projection
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promet
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propagation modeling
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python
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radar
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radiation
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radiation profiles
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radiative convective equilibrium
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radiative equilibrium
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radiative feedback
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radiative fluxes
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radiative forcing
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radiative processes
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radiative transfer
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radiative-convective equilibrium
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radiative-equilibrium
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radio occultation
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radiometer
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radiometers
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radiosonde
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radiosonde cloud liquid
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radiosonde correction
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radiosonde corrections
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rain
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reanalysis
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refractive index
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relative humidity
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remote sensing
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retrieval
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retrievals
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review
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rodgers
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rttov
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sahara
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sahel
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sampling
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sand/dust
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sar
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satellite
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satellite missions
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satellite observations
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satellite simulator
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sbuehler_habil
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scattering
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scattering databases
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scintillations
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scout-amma
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self-aggregation
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sensor geometry
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seviri
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shallow convection
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simulated annealing
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single scattering
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smiles
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sno
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snow
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snowfall
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software
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soil
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solar
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soot
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sounders
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spectral information
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spectroscopy
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split window technique
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sreerekha
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ssm/i
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ssm/t
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ssmis
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ssmt2
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stability
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stars
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statistics
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ste
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stereo
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stratosphere
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submillimeter
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submm
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sun
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supersaturation
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surface
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synergies
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synergy
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task2
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tempera
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temperature
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terra
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thermodynamics
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time series
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titan
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tkuhn
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toa radiation
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top of the atmosphere
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total column
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tovs
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trade-wind clouds
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trajectory analysis
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trend
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trmm
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tropical circulation
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tropical convection
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tropical meteorology
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tropics
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tropopause
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troposphere
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ttl
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turbulence
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tutorial
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two-moment scheme
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upper troposphere
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uth
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uthmos
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utls
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validation
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vater vapor
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venus
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visualization
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volcanic ash
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walker
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walker circulation
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walker rirculation
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water
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water cycle
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water dimer
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water vapor
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water vapor continuum
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water vapour
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water vapour path
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water-vapour
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wind
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zeeman
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Group references
In the Pipeline
Articles
Books and Book Contributions
Theses
Technical Reports and Proposals
Articles in Conference Proceedings and Newsletters
Internal Reports
External references
- Bar-Sever, Y. E., P. M. Kroger, and J. A. Borjesson (1998), Estimating horizontal gradients of tropospheric path delay with a single GPS receiver, J. Geophys. Res., 103(B3), 5019–5035.
- Battaglia, A., C. Simmer, and H. Czekala (2006), Three-dimensional effects in polarization signatures as observed from precipitating clouds by low frequency ground-based microwave radiometers, Atmos. Chem. Phys., 6, 4383–4394, doi:10.5194/acp-6-4383-2006.
- Bevis, M., S. Businger, T. A. Herring, C. Rocken, R. A. Anthes, and R. H. Ware (1992), GPS Meteorology: Remote Sensing of Atmospheric Water Vapor Using the Global Positioning System, J. Geophys. Res., 97(D14), 15,787–15,801.
- Blumenstock, T., G. Kopp, F. Hase, G. Hochschild, S. Mikuteit, U. Raffalski, and R. Ruhnke (2006), Observation of unusual chlorine activation by ground-based infrared and microwave spectroscopy in the late Arctic winter 2000/2001, Atmos. Chem. Phys., 6, 897–905, doi:10.5194/acp-6-897-2006.
- Cadeddu, M. P., G. E. Peckham, and C. Gaffard (2002), The Vertical Resolution of Ground-Based Microwave Radiometers Analyzed Through a Multiresolution Wavelet Technique, IEEE Geosci. Remote Sens., 40(3), 531–540.
- Cimini, D., F. Nasir, E. R. Westwater, V. H. Payne, D. D. Turner, E. J. Mlawer, M. L. Exner, and M. P. Cadeddu (2009), Comparison of Ground-Based Millimeter-Wave Observations and Simulations in the Arctic Winter, IEEE T. Geosci. Remote, 47(9), 3098–3106, doi:10.1109/TGRS.2009.2020743.
- Comstock, J. M. and C. Jakob (2004), Evaluation of tropical cirrus cloud properties derived from ECMWF model output and ground based measurements over Nauru Island, Geophys. Res. Lett., 31.
- Comstock, J. M., R. D. Entremont, D. DeSlover, G. G. Mace, S. Y. Matrosov, S. A. McFarlane, P. Minnins, D. Mitchell, K. Sassen, M. D. Shupe, D. D. Turner, and Z. Wang (2007), An Intercomparison of Microphysical Retrieval Algorithms for Upper-Tropospheric Ice Clouds, Bull. Amer. Met. Soc., 191–204, doi:10.1175/BAMS-88-2-191.
- Crewell, S., H. Czekala, U. Loehnert, and C. Simmer (2001), Microwave Radiometer for Cloud Carthography: A 22-channel ground-based microwave radiometer for atmospheric research, Radio Sci., 36(4), 621–638.
- Davis, J. L., T. A. Herring, I. I. Shapiro, A. E. E. Rogers, and G. Elgered (1985), Geodesy by radio interferometry: Effects of atmospheric modeling errors on estimates of baseline length, Radio Sci., 20(6), 1593–1607.
- Davis, J. L., G. Elgered, A. E. Niell, and C. E. Kuehn (1993), Ground-based measurement of gradients in the 'wet' radio refractivity of air, Radio Sci., 28(6), 1003–1018.
- Decker, M. T., E. R. Westwater, and F. O. Guiraud (1978), Experimental Evaluation of Ground-Based Microwave Radiometric Sensing of Atmospheric Temperature and Water Vapor Profiles, J. Appl. Meteorol., 17(12), 1788–1795.
- Elgered, G., B. O. Roennaeng, and J. I. H. Askne (1982), Measurements of atmospheric water vapor with microwave radiometry, Radio Sci., 17(5), 1258–1264.
- Elgered, G., J. M. Johansson, B. O. Roennaeng, and J. L. Davis (1997), Measuring regional atmospheric water vapor using the Swedish permanent GPS network, Geophys. Res. Lett., 24(21), 2663–2666.
- Elosegui, P., J. L. Davis, L. P. Gradinarsky, G. Elgered, J. M. Johansson, D. A. Tahmoush, and A. Rius (1999), Sensing atmospheric structure using small-scale space geodetic networks, Geophys. Res. Lett., 26(16), 2445–2448.
- Emardson, T. R. and J. M. Johansson (1998), Spatial interpolation of the atmospheric water vapor content between sites in a ground-based GPS network, Geophys. Res. Lett., 25(17), 3347–3350.
- Feist, D. G., C. P. Aellig, N. Kämpfer, R. Peter, P. M. Solomon, J. W. Barrett, S. Zoonematkermani, A. Parrish, P. Hartogh, C. Jarchow, R. M. Bevilacqua, and G. K. Hartmann (1996), Comparison of MAS stratospheric CIO measuremts with spaceborne, airborne, and ground-based experiments, In: XVIII. Quadrennial Ozone Symposium.
- Fionda, E., M. J. Falls, and E. R. Westwater (1991), Attenuation statistics at 20.6, 31.65 and 52.85 GHz derived from emission measurements by ground-based microwave radiometers, IEEE Proceeding-H, 138(1), 46–49.
- Gueldner, J. and D. Spaenkuch (1999), Results of Year-Round Remotely Sensed Integrated Water Vapor by Ground-Based Microwave Radiometry, J. Appl. Meteorol., 38, 981–988.
- Guo, G., Q. Ji, P. Yang, and S.-C. Tsay (2005), Remote Sensing of Cirrus Optical and Microphysical Properties From Ground-Based Infrared Radiometric Measurements- Part II: Retrievals From CRYSTAL-FACE Measurements, IEEE Geosci. Remote Sens. Let., 2(2), 132–135.
- Han, Y. and E. R. Westwater (2000), Analysis and Improvement of Tipping Calibration for Ground-Based Microwave Radiometers, IEEE Geosci. Remote Sens. Let., 38(3), 1260–1276.
- Hegels, E., P. J. Crutzen, T. Kluepfel, D. Perner, J. P. Burrow, A. Ladstaetter-Weißenmayer, M. Eising, J. Callies, A. Hahne, K. Chance, U. Platt, and W. Balzer (1996), Satellite measurements of halogen oxides by the Global Ozone Monitoring Experiment, GOME, on ERS2: Distribution of Bro and comparison with groundbased observations, Proc. of the XVIII Quadrennial Ozone Symposium.
- Holdaway, M. A. and J. R. Pardo (1997), Modeling of the Submillimeter Opacity on Chajnanto, , MMA Memo 187.
- Illingworth, A. J., R. J. Hogan, E. J. O'Connor, D. Bouniol, J. Delanoë, J. Pelon, A. Protat, M. E. Brooks, N. Gaussiat, D. R. Wilson, D. P. Donovan, H. Klein Baltink, G-J. van Zadelhoff, J. D. Eastment, J. W. F. Goddard, C. L. Wrench, M. Haeffelin, O. A. Krasnov, H. W. J. Russchenberg, J-M. Piriou, F. Vinit, A. Seifert, A. M. Tompkins, and U. Willén (2007), Cloudnet — Continuous Evaluation of Cloud Profiles in Seven Operational Models Using Ground-Based Observations, Bull. Amer. Met. Soc., 88(6), 883–898, doi:10.1175/BAMS-88-6-883.
- Ingold, T., R. Peter, and N. Kämpfer (1998), Weighted mean tropopspheric temperature and transmittance determination at millimeter-wave frequencies for ground-based applications, Radio Sci., 33(4), 905–918.
- Jarlemark, P. and G. Elgered (2003), Retrieval of atmospheric water vapour using a ground-based single-channel microwave radiometer, Int. J. Remote Sensing, 24(19), 3821–3837.
- Krupnov, A. F. and A. A. Shvetsov (2002), Asymmetry of 118 GHz oxygen line in the Earth atmosphere: Pressure shift as a new element in atmospheric lines, Radio Sci., 37(4), doi:10.1029/2001RS002554.
- Mace, G. G., S. Benson, and E. Vernon (2005), On the Relationship Between Cirrus Clouds and the Large-Scale Atmospheric State as Revealed by 6 Years of Ground-Based Data, University of Utah, Submitted to the Journal of Climate.
- Morland, J., B. Deuber, D. G. Feist, L. Martin, S. Nyeki, N. Kämpfer, C. Maetzler, P. Jeannet, and L. Vuilleumier (2006), The STARTWAVE atmospheric water database, Atmos. Chem. Phys., 6, 2039–2056, doi:10.5194/acp-6-2039-2006.
- Nakamura, H., H. Seko, and Y. Shoji (2004), Dry Biases of Humidity Measurements from the Vaisala RS80-A and Meisei RS2-91 Radiosondes from Ground-Based GPS, J. Meteorol. Soc. Jpn., 82(1B), 277–299.
- Nilsson, T. and G. Elgered (2008), Long-term trends in the atmospheric water vapor content estimated from ground-based GPS data, J. Geophys. Res., 113, D19101, doi:10.1029/2008JD010110.
- Pardo, J. R., E. Serabyn, and J. Cernicharo (2001), Submillimeter atmospheric transmission measurements on Mauna Kea during extremely dry El Nino conditions: implications for broadband opacity contributions, J. Quant. Spectrosc. Radiat. Transfer, 68, 419–433.
- Pardo, J. R., L. Pagani, M. Gerin, and C. Prigent (1995), Evidence of the Zeeman Splitting in the 21→01 Rotational Transition of the Atmospheric 16O18O Molecule from Ground-based Measurements, J. Quant. Spectrosc. Radiat. Transfer, 54(6), 931–943.
- Pardo, J. R., J. Cernicharo, E. Lellouch, T. Encrenaz, and G. Paubert (1995), Ground-based measurements of middle atmospheric water vapor at 183 GHz during very dry tropospheric conditions, Unknown IEEE journal, 1401–1403.
- Pardo, J. R., M. Gerina, C. Prigent, J. Cernicharo, G. Rochard, and P. Brunel (1998), Remote Sensing of the Mesospheric Temperature Profile from Close-to-Nadir Observations: Discussion about the Capabilities of the 57.5–62.5 GHz Frequency Band and the 118.75 GHz Single O2 Line, J. Quant. Spectrosc. Radiat. Transfer, 60(4), 559–571.
- Rao, T. N. and S. Kirkwood (2005), Characteristics of tropopause folds over Arctic latitudes, J. Geophys. Res., 110, doi:10.1029/2004JD005374.
- Rathke, C., W. Armbruster, J. Fischer, E. Becker, and J. Notholf (2000), Comparison of stratus cloud properties derived from coincident airborne visible and ground-based infrared spectrometer measurements, Geophys. Res. Lett., 27(17), 2641–2644.
- Rocken, C., T. van Hove, and R. Ware (1997), Near real-time GPS sensing of atmospheric water vapor, Geophys. Res. Lett., 24(24), 3221–3224.
- Serabyn, E. and E. W. Weisstein (1996), Calibration of planetary brightness temperature spectra at near-millimeter and submillimeter wavelengths with a Fourier-transform spectrometer, Appl. Opt., 35(16), 2752–2763.
- Sinnhuber, B.-M., J. Langer, U. Klein, U. Raffalski, and K. Kuenzi (1998), Ground based millimeter-wave observations of Arctic ozone during winter and spring 1996/97, Geophys. Res. Lett., 25(17), 3327–3330.
- Stankov, B. B. (1111), Ground- and Space-Based Humidity Profiling in a Cloudy Atmosphere with Strong Elevated Temperature Inversion, Environmental Technology Laboratory.
- Vey, S., R. Dietrich, K.-P. Johnsen, J. Miao, and G. Heygster (2004), Comparison of Tropospheric Water Vapour over Antarctica Derived from AMSU-B Data, Ground-Based GPS Data and the NCEP/NCAR Reanalysis, J. Meteorol. Soc. Jpn., 82(1B), 259–267.
- Wang, J., G. P. Anderson, H. E. Revercomb, and R. O. Knuteson (1996), Validation of FASCOD3 and MODTRANS3: comparison of model calculations with ground-based and airborne interferometer observations under clear-sky conditions, Appl. Opt., 35(30), 6028–6041.
- Ware, R., C. Alber, C. Rocken, and F. Solheim (1997), Sensing integrated water vapor along GPS ray paths, Geophys. Res. Lett., 24, 417–420.
- Westwater, E. R. and F. O. Guiraud (1980), Ground-based microwave radiometric retrieval of precipitable water vapor in the prescence of clouds with high liquid content, Radio Sci., 15(5), 947–957.
- Westwater, E. R. and J. B. Snider (1990), Ground-Based Radiometric Observations of Atmospheric Emission and Attenuation at 20.6, 31.65, and 90.0 GHz: A Comparison of Measurements and Theory, IEEE Trans. Antennas Propag., 38(10), 1569–1579.