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.

| 2c-ice | a-train | abs lookup | absorption | active | aerosol | aerosols | age of air | aggregation | airs | albedo | algorithm | amsos | amsu | annual cycle | anomalies | aqua | ar4 | ar5 | arctic | arm | arts | arts-dev | asr | assimilation | astronomy | astrophysics | asymmetry | atmosphere | atmospheric composition | atmospheric dynamics | atmospheric profiles | atsr-2 | avhrr | bachelor thesis | backscattering | basics | bayes | bias | biomass | book | calculation | calculations | calibration | calipso | ccn | cdr | ceres | cfmip | chemistry | cia | ciraclim | cirrus | cirrus anvil sublimation | cirrus cloud | cirrus clouds | cirrusstudy | ciwsir/cloudice | claus | cliccs | climate | climate change | climate dynamics | climate feedbacks | climate sensitivity | climate sensivity | climate variability | climatology | cloud feedback | cloud forcing | cloud fraction | cloud ice | cloud ice mission | cloud optical thickness | cloud properties | cloud radiative effects | cloud radiative forcing | cloud regimes | cloud top pressure | cloudice mission | clouds | cloudsat | clustering | cmip3 | cmip5 | cmip6 | cmsaf | co2 | collocation | collocations | comparison | computer science | continua | contrail | convection | convective clouds | convective processes | convective self-aggregation | correlated k | cosmic background | cosmic rays | cosp | cost 723 qjrms | cross-calibration | cth | cumulus | dardar | data assimilation | data bases | dda | deep convection | delta m | dimer | disort | diurnal cycle | dlr-smiles | dmsp | documentation | doppler | droplet size | dynamics | earth | earthcare | ec earth | echam | ecmwf | effective radius | electromagnetism | electron content | elevation | elevation satellite-2 | emd | emde | emissivity | enso | eof-pca-svd | erbe | error assessment | ers | eruption | esa planetary | exoplanets | extraterrestrial | fall speed | far-infrared | faraday-voigt | fcdr | feedback | feedbacks | fingerprinting | flux uav | forcing | forest fire | fox19_airborne_amt.pdf | friend | fun | fuzzy inference system | fuzzy logic | gcm | genesis | geostationary | gerrit_erca | global warming | gnss | goes | gps | gras | graupel | gravitational lensing | greenhouse effect | ground-based | groundbased | habil | hadley circulation | hail | hamburg | heating rate | heating rates | herschel | hiatus | hirs | history | hsb | humidity | hydrological sensitivity | hydrological sensivity | hydrometeors | iasi | ice | ice clouds | ice crystal growth | ice nucleation | ice water | icesat-2 | ici | icon | icz | in situ | infrared | infrared sounder | instruments | inter-calibration | intercalibration | intercomparison | interference | inverse modelling | ipcc | ir | ir/vis | iris | isccp | ismar | isotopes | itcz | iwc | iwp | iwv | john | jupiter | kalpana | kessler scheme | lblrtm | licentiate thesis | lidar | limb effect | limb sounding | limb-correction | linemixing | lineshape | liquid water | liquid water path | longwave radiation | low-cloud feedback | magnetic field | magnetism | mars | mas | mass-dimension relation | master thesis | masters thesis | math | megha-tropiques | mendrok | mesoscale organization | meteorology | meteosat | methane ocean | metop | mhs | microphysics | microwave | microwave humidity | microwave radiometry | milz | mipas | mirs | misr | mixed phase | mls | model | modeling | models | modis | monte carlo | moon | mspps | msu | mth | multi-moment scheme | multisensor | mwhs | mwi | net radiation | neural network | nicam | nlte | noaa | nonsphericity | npoess | observation | ocean | ocean reflection | ocean-atmosphere interactions | odin | olr | one-moment scheme | open loop | optical | optical depth | optical properties | optics | orbital drift | orbital drift correction | orbits | ozone | pacific ocean | particle orientation | particle shape | particle size | particle size distribution | passive | patmos-x | phase function | phd thesis | planetary evolution | polarimetry | polarization | polder | potss | precipitation | profile datasets | programming | projection | promet | propagation modeling | python | radar | radiation | radiation profiles | radiative convective equilibrium | radiative equilibrium | radiative feedback | radiative fluxes | radiative forcing | radiative processes | radiative transfer | radiative-convective equilibrium | radiative-equilibrium | radio occultation | radiometer | radiometers | radiosonde | radiosonde cloud liquid | radiosonde correction | radiosonde corrections | rain | reanalysis | refractive index | relative humidity | remote sensing | retrieval | retrievals | review | rodgers | rttov | sahara | sahel | sampling | sand/dust | sar | satellite | satellite missions | satellite observations | satellite simulator | sbuehler_habil | scattering | scattering databases | scintillations | scout-amma | self-aggregation | sensor geometry | seviri | shallow convection | simulated annealing | single scattering | smiles | sno | snow | snowfall | software | soil | solar | soot | sounders | spectral information | spectroscopy | split window technique | sreerekha | ssm/i | ssm/t | ssmis | ssmt2 | stability | stars | statistics | ste | stereo | stratosphere | submillimeter | submm | sun | supersaturation | surface | synergies | synergy | task2 | tempera | temperature | terra | thermodynamics | time series | titan | tkuhn | toa radiation | top of the atmosphere | total column | tovs | trade-wind clouds | trajectory analysis | trend | trmm | tropical circulation | tropical convection | tropical meteorology | tropics | tropopause | troposphere | ttl | turbulence | tutorial | two-moment scheme | upper troposphere | uth | uthmos | utls | validation | vater vapor | venus | visualization | volcanic ash | walker | walker circulation | walker rirculation | water | water cycle | water dimer | water vapor | water vapor continuum | water vapour | water vapour path | water-vapour | wind | zeeman |

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                14. Fläschner, D. (2016), Intermodel spread in global tropical precipitation changes, Ph.D. thesis, University of Hamburg.
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                16. Folkins, I., K. K. Kelly, and E. M. Weinstock (2002), A simple explanation for the increase in relative humidity between 11 and 14 km in the tropicsJ. Geophys. Res., 107(D23), 4736, doi:10.1029/2002JD002185.
                17. Folkins, I. and R. V. Martin (2004), The Vertical Structure of Tropical Convection and Its Impact on the Budgets of Water Vapor and OzoneJ. Atmos. Sci., 62, 1560–1573.
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                20. Gaffen, D. J., B. D. Santer, J. S. Boyle, J. R. Christy, N. E. Graham, and R. J. Ross (2000), Multidecadal Changes in the Vertical Temperature Structure of the Tropical TroposphereScience, 287, 1242–1245.
                21. Gettelman, A., W. J. Randel, F. Wu, and S. T. Massie (2001), Transport of Water Vapor in the Tropical Tropopause LayerGeophys. Res. Lett.
                22. Gettelman, A. and P. M. de F. Forster (2002), A Climatology of the Tropical Tropopause LayerJ. Meteorol. Soc. Jpn., 80(4V), 911–924.
                23. Guichard, F., D. Parsons, and E. Miller (2000), Thermodynamic and Radiative Impact of the Correction of Sounding Humidity Bias in the TropicsJ. Climate, 13, 3611–3624.
                24. Harrop, B. E. and D. L. Hartmann (2015), The Relationship between Atmospheric Convective Radiative Effect and Net Energy Transport in the Tropical Warm PoolJ. Climate, 28(21), 8620–8633, doi:10.1175/JCLI-D-15-0151.1.
                25. Hartmann, D. L. and K. Larson (2002), An important constraint on tropical cloud - climate feedbackGeophys. Res. Lett., 29(20), 12-1–12-4, doi:10.1029/2002GL015835.
                26. Hartmann, D. L. (2002), Tropical SurprisesScience, 811–812.
                27. Hartmann, D. L. (2016), Tropical anvil clouds and climate sensitivityProc. Nat. Aca. Sci., 113(32), 8897–8899, doi:10.1073/pnas.1610455113.
                28. Highwood, E. J. and B. J. Hoskins (1998), The tropical tropopauseQ. J. R. Meteorol. Soc., 124(549), 1579–1604, doi:10.1002/qj.49712454911.
                29. Inamdar, A. K. and V. Ramanathan (1998), Tropical and global scale interactions among water vapor, atmospheric greenhouse effect, and surface temperatureJ. Geophys. Res., 103(D24), 32,177–32,194.
                30. Jensen, E. J., W. G. Read, J. Mergenthaler, B. J. Sandor, L. Pfister, and A. Tabazadeh (1999), High Humidities and Subvisible Cirrus Near the Tropical TropopauseGeophys. Res. Lett., 26(15), 2347–2350.
                31. Kahn, B. H., C. K. Liang, A. Eldering, A. Gettelman Q. Yue, and K. N. Liou (2008), Tropical thin cirrus and relative humidity observed by the Atmospheric Infrared SounderAtmos. Chem. Phys., 8, 1501–1518, doi:10.5194/acp-8-1501-2008.
                32. Klein, S. A., B. J. Soden, and N.-C. Lau (1999), Remote Sea Surface Temperature Variations during ENSO: Evidence for a Tropical Atmospheric BridgeJ. Climate, 12, 917–932.
                33. Kumar, V. V., C. Jakob, A. Protat, P. T. May, and L. Davies (2013), The four cumulus cloud models and their progression during rainfall events: A C-band polarimetric radar perspectiveJ. Geophys. Res., 118(15), 8375–8389, doi:10.1002/jgrd.50640.
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                36. Lucas, C., B. Timbal, and H. Nguyen (2013), The expanding tropics: a critical assessment of the observational and modeling studiesWiley Interd. Rev.: Climate Change, 5(1), 89–112, doi:10.1002/wcc.251.
                37. Masunaga, H. and C. D. Kummerow (2005), Combined Radar and Radiometer Analysis of Precipitation Profiles for a Parametric Retrieval AlgorithmJ. Atmos. Oceanic Technol., 22, 909–929, doi:10.1175/JTECH1751.1.
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                42. Philipps, O. L., Y. Malhi, N. Higuchi, W. F. Laurance, P. V. Nunez, R. M. Vasquez, S. G. Laurance, L. V. Ferreira, M. Stern, S. Brown, and J. Grace (1998), Changes in the Carbon Balance of Tropical Forests: Evidence from Long-Term PlotsScience, 282, 439–441.
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                44. Pueschel, R. F., D. A. Allen, C. Black, S. Faisant, G. V. Ferry, S. D. Howard, J. M. Livingston, J. Redemann, C. E. Sorenson, and S. Verma (1995), Condensed water in tropical cyclone "Oliver", 8 February 1993Atmos. Res., 38, 297–313.
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                48. Roca, R., R. Guzman, J. Lemond, J. Meijer, L. Picon, and H. Brogniez (2012), Tropical and Extra-Tropical Influences on the Distribution of Free Tropospheric Humidity Over the Intertropical BeltSur. Geophy., 33(3-4), 565–583, doi:10.1007/s10712-011-9169-4.
                49. Sajith, V., K. R. Santosh, and H. S. Ram Mohan (2003), Intraseasonal oscillation of total precipitable water over North Indian Ocean and its application in the diagnostic study of coastal rainfallGeophys. Res. Lett., 30(20), doi:10.1029/2003GL017635.
                50. Sarkar, S. K. and R. Kumar (2002), Cloud Characteristics and Cloud Attenuation in Millimeter Wave and Microwave Frequency Bands for Satellite and Remote Sensing Applications over a Northern Indian Tropical StationInt. J. Inf. Millim. Waves, 23(5), 937–944.
                51. Schröder, M., R. Roca, L. Picon, A. Kniffka, and H. Brogniez (2014), Climatology of free-tropospheric humidity: extension into the SEVIRI era, evaluation and exemplary analysisAtmos. Chem. Phys., 14(20), 11129–11148, doi:10.5194/acp-14-11129-2014.
                52. Schwendike, J., P. Govekar, M. J. Reeder, R. Wardle, G. J. Berry, and C. Jakob (2014), Local partitioning of the overturning circulation in the tropics and the connection to the Hadley and Walker circulationsJ. Geophys. Res., 119(3), 1322–1339, doi:10.1002/2013JD020742.
                53. Seidel, D. J., R. J. Ross, J. K. Angell, and G. C. Reid (2001), Climatological characteristics of the tropical tropopause as revealed by radiosondesJ. Geophys. Res., 106(D8), 7857–7878, doi:10.1029/2000JD900837.
                54. Shaw, R. (1999), Indian Ocean has its own El NinoEnv. News Net.
                55. Shaw, R. (1999), New tools help forecast tropical stormsEnv. News Net.
                56. Spencer, R. W. and W. D. Braswell (1997), How Dry is the Tropical Free Troposphere? Implications for Global Warming TheoryBull. Amer. Met. Soc., 78(6), 1097–1106.
                57. Stevens, B., D. Farrell, L. Hirsch, F. Jansen, L. Nuijens, I. Serikov, B. Brügmann, M. Forde, H. Linne, K. Lonitz, and J. M. Prospero (2016), The Barbados Cloud ObservatoryBull. Amer. Met. Soc., 97(5), 787–801, doi:10.1175/BAMS-D-14-00247.1.
                58. Thompson, A. M., J. C. Witte, S. J. Oltmans, and F. J. Schmidlin (2004), SHADOZ - A tropical ozonesonde-radiosonde network for the atmospheric communityBull. Amer. Met. Soc., 85(10), 1549–1564, doi:10.1175/BAMS-85-10-1549.
                59. Trenberth, K. E., D. P. Stepaniak, and J. W. Hurrell (2001), Quality of Reanalyses in the TropicsJ. Climate, 14, 1499–1510.
                60. Winker, D. M. and C. R. Trepte (1998), Laminar cirrus observed near the tropical tropopause by LITEGeophys. Res. Lett., 25(17), 3351–3354.
                61. Yasunaga, K., H. Kida, and T. Satomura (2004), The 600–750 hPa relative humidity minimum observed during PEM-Tropics BGeophys. Res. Lett., 30(24), doi:10.1029/2003GL018739.
                62. Zhao, G. and L. D. Girolamo (2007), Statistics on the macrophysical properties of trade wind cumuli over the tropical western AtlanticJ. Geophys. Res., 112(D10), D1024, doi:10.1029/2006JD007371.