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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| 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 | 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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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Filtered by keyword:cloud ice

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Group references

In the Pipeline

    Articles

      2013 Back to top

    1. Millàn, L., W. Read, Y. Kasai, A. Lambert, N. Livesey, J. Mendrok, H. Sagawa, T. Sano, M. Shiotani, and D. L. Wu (2013), SMILES ice cloud productsJ. Geophys. Res., 118(12), 6468–6477, doi:10.1002/jgrd.50322.

      2. 2012 Back to top

    2. Buehler, S. A., E. Defer, F. Evans, S. Eliasson, J. Mendrok, P. Eriksson, C. Lee, C. Jimenéz, C. Prigent, S. Crewell, Y. Kasai, R. Bennartz, and A. J. Gasiewski (2012), Observing Ice Clouds in the Submillimeter Spectral Range: The CloudIce Mission Proposal for ESA's Earth Explorer 8Atmos. Meas. Tech., 5, 1529–1549, doi:10.5194/amt-5-1529-2012.

      3. 2011 Back to top

    3. Bodas-Salcedo, A., M. J. Webb, S. Bony, H. Chepfer, J.-L. Dufresne, S. A. Klein, Y. Zhang, R. Marchand, J. M. Haynes, R. Pincus, and V. O. John (2011), COSP: satellite simulation software for model assessmentBull. Amer. Met. Soc., 92, 1023–1043, doi:10.1175/2011BAMS2856.1.
    4. Eriksson, P., B. Rydberg, and S. A. Buehler (2011), On cloud ice induced absorption and polarisation effects in microwave limb soundingAtmos. Meas. Tech., 4, 1305–1318, doi:10.5194/amt-4-1305-2011.
    5. Eliasson, S., S. A. Buehler, M. Milz, P. Eriksson, and V. O. John (2011), Assessing observed and modelled spatial distributions of ice water path using satellite dataAtmos. Chem. Phys., 11, 375–391, doi:10.5194/acp-11-375-2011.

      6. 2009 Back to top

    6. Rydberg, B., P. Eriksson, S. A. Buehler, and D. P. Murtagh (2009), Non-Gaussian Bayesian retrieval of tropical upper tropospheric cloud ice and water vapour from Odin-SMR measurementsAtmos. Meas. Tech., 2, 621–637, doi:10.5194/amt-2-621-200.
    7. Hong, G., P. Yang, B. A. Baum, A. J. Heymsfield, F. Weng, Q. Liu, G. Heygster, and S. A. Buehler (2009), Scattering Database in the Millimeter and Submillimeter Wave Range of 100–1000 GHz for Nonspherical Ice ParticlesJ. Geophys. Res., 114, D06201, doi:10.1029/2008JD010451.

      8. 2007 Back to top

    8. Buehler, S. A., C. Jiménez, K. F. Evans, P. Eriksson, B. Rydberg, A. J. Heymsfield, C. Stubenrauch, U. Lohmann, C. Emde, V. O. John, T. R. Sreerekha, and C. P. Davis (2007), A concept for a satellite mission to measure cloud ice water path and ice particle sizeQ. J. R. Meteorol. Soc., 133(S2), 109–128, doi:10.1002/qj.143.
    9. Rydberg, B., P. Eriksson, and S. A. Buehler (2007), Prediction of cloud ice signatures in sub-mm emission spectra by means of ground-based radar and in-situ microphysical dataQ. J. R. Meteorol. Soc., 133(S2), 151–162, doi:10.1002/qj.151.
    10. Jiménez, C., S. A. Buehler, B. Rydberg, P. Eriksson, and K. F. Evans (2007), Performance simulations for a submillimetre wave cloud ice satellite instrumentQ. J. R. Meteorol. Soc., 133(S2), 129–149, doi:10.1002/qj.134.
    11. Davis, C. P., K. F. Evans, S. A. Buehler, D. L. Wu, and H. C. Pumphrey (2007), 3-D polarised simulations of space-borne passive mm/sub-mm midlatitude cirrus observations: a case studyAtmos. Chem. Phys., 7, 4149–4158, doi:10.5194/acp-7-4149-2007.
    12. Mendrok, J., F. Schreier, and M. Höpfner (2007), Estimating cirrus cloud properties from MIPAS dataGeophys. Res. Lett., 34, L08807, doi:10.1029/2006GL028246.

      13. 2004 Back to top

    13. Emde, C., S. A. Buehler, C. Davis, P. Eriksson, T. R. Sreerekha, and C. Teichmann (2004), A Polarized Discrete Ordinate Scattering Model for Simulations of Limb and Nadir Longwave Measurements in 1D/3D Spherical AtmospheresJ. Geophys. Res., 109(D24), D24207, doi:10.1029/2004JD005140.
    14. Emde, C., S. A. Buehler, P. Eriksson, and T. R. Sreerekha (2004), The effect of cirrus clouds on microwave limb radiancesAtmos. Res., 72(1–4), 383–401, doi:10.1016/j.atmosres.2004.03.023.

      15. 2002 Back to top

    15. Sreerekha, T. R., S. A. Buehler, and C. Emde (2002), A Simple New Radiative Transfer Model for Simulating the Effect of Cirrus Clouds in the Microwave Spectral RegionJ. Quant. Spectrosc. Radiat. Transfer, 75, 611-624.

    Books and Book Contributions

      Theses

        2006 Back to top

      1. Mendrok, J. (2006), The SARTre Model for Radiative Transfer in Spherical Atmospheres and its Application to the Derivation of Cirrus Cloud Properties, Ph.D. thesis, Freie Universität Berlin.

      Technical Reports and Proposals

        2014 Back to top

      1. Holl, G. (2014), EPS-SG ATBD For the ICI Ice Water Path Product, EUMETSAT, v1 Draft, 28 Feb 2014.

      Articles in Conference Proceedings and Newsletters

        2008 Back to top

      1. Mendrok, J., P. Baron, and Y. Kasai (2008), Studying the Potential of Terahertz Radiation for Deriving Ice Cloud Microphysical Information, In: Remote Sensing of Clouds and the Atmosphere XIII, Edited by Picard, R. H., A. Comeron, K. Schäfer, A. Amodeo, and M. van Weele, SPIE, doi:10.1117/12.800262.

      Internal Reports

        External references

        1. Baran, A. J. (2012), From the single-scattering properties of ice crystals to climate prediction: A way forwardAtmos. Res., 112, 45–69, doi:10.1016/j.atmosres.2012.04.010.
        2. Delanoë, J. and R. J. Hogan (2008), A variational scheme for retrieving ice cloud properties from combined radar, lidar, and infrared radiometerJ. Geophys. Res., 113, D07204, doi:10.1029/2007JD009000.
        3. Delanoë, J., R. J. Hogan, R. M. Forbes, A. Bodas-Salced, and T. H. M Stein (2011), Evaluation of ice cloud representation in the ECMWF and UK Met Office models using CloudSat and CALIPSO dataQ. J. R. Meteorol. Soc., Not published yet, doi:10.1002/qj.882.
        4. Eidhammer, T., P. J. DeMott, and S. M. Kreidenweis (2009), A comparison of heterogeneous ice nucleation parameterizations using a parcel model frameworkJ. Geophys. Res., 114, D06202, doi:10.1029/2008JD011095.
        5. Ekström, M., P. Eriksson, B. Rydberg, and D. P. Murtagh (2007), First Odin sub-mm retrievals in the tropical upper troposphere: humidity and cloud ice signalsAtmos. Chem. Phys., 7, 459–469, doi:10.5194/acp-7-459-2007.
        6. Eriksson, P., M. Ekström, B. Rydberg, and D. Murtagh (2007), First Odin sub-mm retrievals in the tropical upper troposphere: ice cloud propertiesAtmos. Chem. Phys., 7, 471–483, doi:10.5194/acp-7-471-2007.
        7. Eriksson, P., M. Ekström, B. Rydberg, D. L. Wu, R. T. Austin, and D. P. Murtagh (2008), Comparison between early Odin-SMR, Aura MLS and CloudSat retrievals of cloud ice mass in the upper tropical troposhereAtmos. Chem. Phys., 8(7), 1937–1948, doi:10.5194/acp-8-1937-2008.
        8. Fan, J., M. Ovtchinnikov, J. M. Comstock, S. A. McFarlane, and A. Khain (2009), Ice formation in Arctic mixed-phase clouds: Insights from a 3-D cloud-resolving model with size-resolved aerosol and cloud microphysicsJ. Geophys. Res., 114, D04205, doi:10.1029/2008JD010782.
        9. Gong, J. and D. L. Wu (2013), CloudSat-constrained cloud ice water path and cloud top height retrievals from MHS 157 and 183.3 GHz radiancesAtmos. Meas. Tech. Discuss., 6, 8187–8233, doi:10.5194/amtd-6-8187-2013.
        10. Hess, H., R. B. A. Koelemeijer, and P. Stammes (1998), Scattering matrices of imperfect hexagonal crystalsJ. Quant. Spectrosc. Radiat. Transfer, 60, 301–308, doi:10.1016/S0022-4073(98)00007-7.
        11. Heymsfield, A. J. and C. D. Westbrook (2010), Advances in the Estimation of Ice Particle Fall Speeds Using Laboratory and Field MeasurementsJ. Atmos. Sci., 67, 2469–2482, doi:10.1175/2010JAS3379.1.
        12. Heymsfield, A. J., D. Winker, M. Avery, M. Vaughan, G. Diskin, M. Deng, V. Mitev, and R. Matthey (2013), Relationships between Ice Water Content and Volume Extinction Coefficient from In Situ Observations for Temperatures from 0 ° to -86 °C: Implications for Spaceborne Lidar RetrievalsJ. Appl. Meteorol. Clim., 53(2), 479–505, doi:10.1175/JAMC-D-13-087.1.
        13. Knap, W. H., L. C. Labonnote, G. Brogniez, and P. Stammes (2005), Modeling total and polarized reflectances of ice clouds: Evaluation by means of POLDER and ATSR-2 measurementsAppl. Opt., 40, 4060–4073.
        14. Liu, G. and E.-K. Seo (2013), Detecting snowfall over land by satellite high-frequency microwave observations: The lack of scattering signature and a statistical approachJ. Geophys. Res., 118(3), 1376–1387, doi:10.1002/jgrd.50172.
        15. Moores, J. E., L. Komguem, J. A. Whiteway, M. T. Lemmon, C. Dickinson, and F. Daerden (2011), Observations of near-surface fog at the Phoenix Mars landing siteGeophys. Res. Lett., 38, L04203, doi:10.1029/2010GL046315.
        16. Morrison, H. and J. A. Mibrandt (2015), Parameterization of Cloud Microphysics Based on the Prediction of Bulk Ice Particle Properties. Part I: Scheme Description and Idealized TestsJ. Atmos. Sci., 72, 287–311, doi:10.1175/JAS-D-14-0065.1.
        17. Petty, G. W. and W. Huang (2010), Microwave Backscatter and Extinction by Soft Ice Spheres and Complex Snow AggregatesJ. Atmos. Sci., 67, 769–787, doi:10.1175/2009JAS3146.1.
        18. Prigent, C., J. R. Pardo, M. I. Mishchenko, and W. B. Rossow (2001), Microwave polarized signatures generated within cloud systems: Special Sensor Microwave Imager (SSM/I) observations interpreted with radiative transfer simulationsJ. Geophys. Res., 106(D22), 28243–28258.
        19. Reitter, S., K. Fröhlich, A. Seifert, S. Crewell, and M. Mech (2011), Evaluation of ice and snow content in the global numerical weather prediction model GME with CloudSatGeosci. Model Dev., 4(3), 579–589, doi:10.5194/gmd-4-579-2011.
        20. Spichtinger, P., K. Gierens, and A. Dörnbrack (2005), Formation of ice supersaturation by mesoscale gravity wavesAtmos. Chem. Phys., 5(5), 1243–1255, doi:10.5194/acp-5-1243-2005.
        21. Spichtinger, P. and K. M. Gierens (2009), Modelling of cirrus clouds — Part 1a: Model description and validationAtmos. Chem. Phys., 9, 685–706, doi:10.5194/acp-9-685-2009.
        22. Spichtinger, P. and K. M. Gierens (2009), Modelling of cirrus clouds — Part 1b: Structuring cirrus clouds by dynamicsAtmos. Chem. Phys., 9, 707–719, doi:10.5194/acp-9-707-2009.
        23. Tomita, H. (2008), New Microphysical Schemes with Five and Six Categories by Diagnostic Generation of Cloud IceJ. Meteorol. Soc. Jpn., 86A, 121–142, doi:10.2151/jmsj.86A.121.
        24. Um, J. and G. M. McFarquhar (2011), Dependence of the single-scattering properties of small ice crystals on idealized shape modelsAtmos. Chem. Phys., 11, 3159–3171, doi:10.5194/acp-11-3159-2011.
        25. Waliser, D. E., J-L. F. Li, C. P. Woods, R. T. Austin, J. Bacmeister, J. Chern, A. Del Genio, J. H. Jiang, Z. Kuang, H. Meng, P. Minnis, S. Platnick, W. B. Rossow, G. L. Stephens, S. Sun-Mack, W-K. Tao, A. M. Tompkins, D. G. Vane, C. Walker, and D. Wu (2009), Cloud ice: A climate model challenge with signs and expectations of progressJ. Geophys. Res., 114, D00A21, doi:10.1029/2008JD010015.
        26. Wu, D. L., W. G. Read, A. E. Dessler, S. C. Sherwood, and J. H. Jiang (2005), UARS/MLS cloud ice measurements: Implications for H2O transport near the tropopauseJ. Atmos. Sci., 62(2), 518–530, doi:10.1175/JAS-3382.1.
        27. Wu, D. L., J. H. Jiang, W. G. Read, R. T. Austin, C. P. Davis, A. Lambert, G. L. Stephens, D. G. Vane, and J. W. Waters (2008), Validation of the Aurs MLS cloud ice water content measurementsJ. Geophys. Res., 113, D15S10, doi:10.1029/2007JD008931.
        28. Wu, D. L., R. T. Austin, M. Deng, S. L. Durden, A. J. Heymsfield, J. H. Jiang, A. Lambert, J.-L. Li, N. J. Livesey, G. M. McFarquhar, J. V. Pittman, G. L. Stephens, S. Tanelli, D. G. Vane, and D. E. Waliser (2009), Comparisons of global cloud ice from MLS, CloudSat, and correlative data setsJ. Geophys. Res., 114, D00A24, doi:10.1029/2008JD009946.
        29. Zhang, Z., S. Platnick, P. Yang, A. K. Heidinger, and J. M. Comstock (2010), Effects of ice particle size vertical inhomogeneity on the passive remote sensing of ice cloudsJ. Geophys. Res., 115, D17203, doi:10.1029/2010JD013835.