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
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- Essen, L. and K. D. Froome (1951), The Refractive Indices and Dielectric Constants and its Principal Constituents at 24,0000 Mc/s, Proc. Phys. Soc. B, 64(10), doi:10.1088/0370-1301/64/10/303.
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- Ferraro, J. R., G. Sill, and U. Fink (1980), Infrared Intensity Measurements of Cryodeposited Thin Films of NH3, NH4HS, H2S, and Assignments of Absorption Bands, Am. Sci., 34(5), 525–533.
- Ghobrial, S. I. and S. M. Sharief (1987), Microwave Attenuation and Cross Polarization in Dust Storms, IEEE Trans. Antennas Propag., 35(4), 418–425, doi:10.1109/TAP.1987.1144120.
- Gosse, S., D. Labrie, and P. Chylek (1995), Refractive index of ice in the 1.4–7.8-μm spectral range, Appl. Opt., 34(28), 6582–6586.
- Guo, G. and S. Li (2000), Study on the Vertical Profile of Refractive Index in the Troposphere, Int. J. Inf. Millim. Waves, 21(7), 1103–1111.
- Hagen, W., A. G. G. M. Tielens, and J. M. Greenberg (1983), A laboratory study of the infrared spectra of interstellar ices, Astronomy & Astrophysics Suppl. S., 51, 389–416.
- Hansen, G. B. (2003), Infrared Optical Constants of Martian Dust Derived from Martian Spectra, In: Sixth International Conference on Mars, July 20-25 2003, Pasadena, California, abstract no. 3194.
- Hansen, G. B. (1997), The infrared absorption spectrum of carbon dioxide ice from 1.8 to 333 μm, J. Geophys. Res., 102(E9), 21569–21587, doi:10.1029/97JE01875.
- Hansen, G. B. (1997), Spectral absorption of solid CO2 from the ultraviolet to the far-infrared, Adv. Space. Res., 20(8), 1613–1616, doi:10.1016/S0273-1177(97)00820-X.
- Ho, C., N. Golshan, and A. Kliore (2002), Radio Wave Propagation Handbook for Communication on and Around Mars, Jet Propulsion Laboratory.
- Hudgins, D. M., S. A. Sandford, L. J. Allamandola, and A. G. G. M. Tielens (1993), Mid- and far-infrared spectroscopy of ices: Optical constants and integrated absorbances, Astrophys. J. Suppl. S., 86(2), 713–870, doi:10.1086/191796.
- Hufford, G. (1991), A Model For The Complex Permittivity of Ice At Frequencies Below 1 THz, Int. J. Inf. Millim. Waves, 12(7), 677–683.
- Hummel, J. R., E. P. Shettle, and D. R. Longtin (1988), A New Background Stratospheric Aerosol Model for Use in Atmospheric Radiation Models, AFGL-TR-88-0166, Air Force Geophysics Laboratory, Hanscom AFB, MA.
- Hunt, G. R., L. M. Logan, and J. W. Salisbury (1973), Mars: Components of infrared spectra and the composition of the dust cloud, Icarus, 18(3), 459–469, doi:10.1016/0019-1035(73)90155-3.
- Iwabuchi, H. and P. Yang (2011), Temperature dependence of ice optical constants: Implications for simulating the single-scattering properties of cold ice clouds, J. Quant. Spectrosc. Radiat. Transfer, 112(15), 2520–2525, doi:10.1016/j.jqsrt.2011.06.017.
- Jacquinet-Husson, N., L. Crepeau, R. Armante, C. Boutammine, A. Chédin, N. A. Scott, C. Crevoisier, V. Capelle, C. Boone, N. Poulet-Crovisier, A. Barbe, A. Campargue, D. Chris Benner, Y. Benilan, B. Bézard, V. Boudon, L. R. Brown, L. H. Coudert, A. Coustenis, V. Dana, V. M. Devi, S. Fally, A. Fayt, J.-M. Flaud, A. Goldman, M. Herman, G. J. Harris, D. Jacquemart, A. Jolly, I. Kleiner, A. Kleinböhl, F. Kwabia-Tchana, N. Lavrentieva, N. Lacome, Li-Hong Xu, O. M. Lyulin, J.-Y. Mandin, A. Maki, S. Mikhailenko, C. E. Miller, T. Mishina, N. Moazzen-Ahmadi, H. S. P. Müller, A. Nikitin, J. Orphal, V. Perevalov, A. Perrin, D. T. Petkie, A. Predoi-Cross, C. P. Rinsland, J. J. Remedios, M. Rotger, M. A. H. Smith, K. Sung, S. Tashkun, J. Tennyson, R. A. Toth, A.-C. Vandaele, and J. Vander Auwera (2011), The 2009 edition of the GEISA spectroscopic database, J. Quant. Spectrosc. Radiat. Transfer, 112(15), 2395–2445, doi:10.1016/j.jqsrt.2011.06.004.
- Jiang, J. H. and D. L. Wu (2004), Ice and water permittivities for millimeter and sub-millimeter remote sensing applications, Atm. Sci. Lett., 5, 146–151, doi:10.1002/asl.77.
- Johnson, B. R. and S. K. Atreya (1996), Feasibility of Determining the Composition of Planetary Ices by Far Infrared Observations: Application to Martian Cloud and Surface Ices, Icarus, 119, 405–426, doi:10.1006/icar.1996.0027.
- Lorenz, R. D. and S. E. Shandera (2001), Physical properties of ammonia-rich ice: Application to Titan, Geophys. Res. Lett., 28(2), 215–218, doi:10.1029/2000GL01219.
- Mätzler, C. (2006), Thermal Microwave Radiation: Application for Remote Sensing, chap. Microwave dielectric properties of ice, pp. 455–462, Inst. Eng. Technol., Stevenage, U. K.
- Manabe, T., K. Sato, and T. Ihara (1992), Measurement of Complex Refractive Index of Soda-Lime Glass at 60 GHz by Vector-Network-Analyser-Based Scatterometer, Elec. Lett., 28(14), 1354–1355, doi:10.1049/el:19920859.
- Martonchik, J. V., G. S. Orton, and J. F. Appleby (1984), Optical properties of NH3 ice from the far infrared to the near ultraviolet, Appl. Opt., 23(4), 541–547, doi:10.1364/AO.23.000541.
- Massie, S. T. and A. Goldman (2003), The infrared absorption cross-section and refractive-index data in HITRAN, J. Quant. Spectrosc. Radiat. Transfer, 82(1?4), 413–428, doi:10.1016/S0022-4073(03)00167-5.
- Mathar, R. J. (2007), Refractive index of humid air in the infrared: model fits, J. Opt. A: Pure Appl. Opt., 9(5), 470–476, doi:10.1088/1464-4258/9/5/008.
- Meneghini, R. and L. Liao (2000), Effective Dielectric Constants of Mixed-Phase Hydrometeors, J. Atmos. Oceanic Technol., 17(5), 628–640, doi:10.1175/1520-0426(2000)017<0628:EDCOMP>2.0.CO;2.
- Mishima, O., D. D. Klug, and E. Whalley (1983), The far-infrared spectrum of ice Ih in the range 8–25 cm-1. Sound waves and difference bands, with application to Saturn's rings, J. Chem. Phys., 78(11), 6399–6404, doi:10.1063/1.444700.
- Mukai, T. and W. Krätschmer (1986), Optical constants of the mixture of ices, Earth, Moon and Planets, 36(2), 145–155.
- Newell, A. C. and R. C. Baird (1965), Absolute Determination of Refractive Indices of Gases at 47.7 Gigahertz, J. Appl. Phys., 36(12), 3751–3759, doi:10.1063/1.1713942.
- Parshukov, V. A. (2009), Estimation of the Accuracy of Calculating the Atmospheric Refraction from High-Altitude Meteorological-Measurement Data, J. of Comm. Tech. and Elec., 54(2), 162–166, doi:10.1134/S1064226909020065.
- Pollack, J. B., D. Colburn, R. Kahn, J. Hunter, W. van Camp, C. E. Carlston, and M. R. Wolf (1977), Properties of Aerosols in the Martian Atmosphere, as Inferred From Viking Lander Imaging Data, J. Geophys. Res., 82(28), 4479–4496, doi:10.1029/JS082i028p04479.
- Pollack, J. B., D. Hollenbach, S. Beckwith, D. P. Simonelli, T. Roush, and W. Fong (1994), Composition and radiative properties of grains in molecular clouds and accretion disks, Astrophys. J., 421(2), 615–639.
- Ray, P. S. (1972), Broadband Complex Refractive Indices of Ice and Water, Appl. Opt., 11(8), 1836–1844, doi:10.1364/AO.11.001836.
- Rossow, W. B. and C. Sagan (1975), Microwave Boundary Conditions on the Atmosphere and Clouds of Venus, J. Atmos. Sci., 32, 1164–1176, doi:10.1175/1520-0469(1975)032<1164:MBCOTA>2.0.CO;2.
- Roush, T., J. Pollack, and J. Orenberg (1991), Derivation of Midinfrared (5–25 μm) Optical Constants of Some Silicates and Palagonite, Icarus, 94(1), 191–208, doi:10.1016/0019-1035(91)90150-R.
- Roux, J. A. and B. E. Wood (1983), Infrared optical properties of solid monomethyl hydrazine, N2O4, and N2H4 at cryogenic temperatures, J. Optical Soc. o. Am., 73(9), 1181–1188, doi:10.1364/JOSA.73.001181.
- Segelstein, D. (1981), The Complex Refractive Index of Water, University of Missouri–Kansas City, Master Thesis.
- Sill, G. and U. Fink (1980), Absorption coefficients of solid NH3 from 50 to 7000 cm-1, J. Optical Soc. o. Am., 70(6), 724–739, doi:10.1364/JOSA.70.000724.
- Sill, G., U. Fink, and J. R. Ferraro (1981), The infrared spectrum of ammonia hydrate: Explanation for a reported ammonia phase, J. Chem. Phys., 74(2), 997–1000, doi:10.1063/1.441157.
- Simpson, R. A., B. C. Fair, and H. T. Howard (1980), Microwave properties of solid CO2, J. Geophys. Res., 85(B10), 5481–5484, doi:10.1029/JB085iB10p05481.
- Sihvola, A. (2000), Mixing Rules with Complex Dielectric Coefficients, Subsurface Sensing Technologies and Applications, 1, 393–415, doi:10.1023/A:1026511515005.
- Steffes, P. G. (1985), Laboratory measurements of the microwave opacity and vapor pressure of sulfuric acid vapor under simulated conditions for the middle atmosphere of Venus, Icarus, 64(3), 576–585, doi:10.1016/0019-1035(85)90077-6.
- Stratton, A. J. (1968), Optical and Radio Refraction on Venus, J. Atmos. Sci., 25, 666–667, doi:10.1175/1520-0469(1968)025<0666:OARROV>2.0.CO;2.
- Thayer, G. D. (1974), An improved equation for the radio refractive index of air, Radio Sci., 9(10), 803–807.
- Toon, O. B., J. B. Pollack, and C. Sagan (1977), Physical Properties of the Particles Composing the Martian Dust Storm of 1971–1972, Icarus, 30(4), 663–696, doi:10.1016/0019-1035(77)90088-4.
- Warren, S. G. and R. E. Brandt (2008), Optical constants of ice from the ultraviolet to the microwave: A revised compilation, J. Geophys. Res., 113, D14220, doi:10.1029/2007JD009744.
- Warren, S. (1984), Optical Constants of Ice from the Ultraviolet to the Microwave, Appl. Opt., 23, 1206–1225, doi:10.1364/AO.23.001206.
- Warren, S. G. (1986), Optical constants of carbon dioxide ice, Appl. Opt., 25(16), 2650–2674, doi:10.1364/AO.25.002650.
- Wolff, M. J. and R. T. Clancy (2003), Constraints on the size of Martian aerosols from Thermal Emission Spectrometer observations, J. Geophys. Res., 108(E9), 5097, doi:10.1029/2003JE002057.
- Wolff, M. J., M. D. Smith, R. T. Clancy, N. Spanovich, B. A. Whitney, M. T. Lemmon, J. L. Bandfield, D. Banfield, A. Ghosh, G. Landis P. R. Christensen, J. F. Bell III, and S. W. Squyres (2006), Constraints on dust aerosols from the Mars Exploration Rovers using MGS overflights and Mini-TES, J. Geophys. Res., 111, E12S17, doi:10.1029/2006JE002786.
- Zhang, C., K.-S. Lee, X.-C. Zhang, X. Wei, and Y.R. Shen (2001), Optical constants of ice Ih crystal at terahertz frequencies, Appl. Phys. Lett., 79(4), 491–493, doi:10.1063/1.1386401.