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ARTS Related Publications

Below is a list of references with ARTS related publications. The list contains articles which cite the papers 'ARTS, the atmospheric radiative transfer simulator' or 'ARTS, the atmospheric radiative transfer simulator, version 2'.

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  1. De Angelis, F., D. Cimini, J. Hocking, P. Martinet, and S. Kneifel (2016), RTTOV-gb - Adapting the fast radiative transfer model RTTOV for the assimilation of ground-based microwave radiometer observationsGeoscientific Model Development, 9(8), 2721-2739, cited By 0, doi:10.5194/gmd-9-2721-2016.
  2. Newnham, D.A., G.P. Ford, T. Moffat-Griffin, and H.C. Pumphrey (2016), Simulation study for measurement of horizontal wind profiles in the polar stratosphere and mesosphere using ground-based observations of ozone and carbon monoxide lines in the 230-250 GHz regionAtmospheric Measurement Techniques, 9(7), 3309-3323, cited By 0, doi:10.5194/amt-9-3309-2016.
  3. Li, S.-L., L. Liu, T.-C. Gao, W. Huang, and S. Hu (2016), Sensitivity analysis of terahertz wave passive remote sensing of cirrus microphysical parametersWuli Xuebao/Acta Physica Sinica, 65(13), cited By 0, doi:10.7498/aps.65.134102.
  4. Fomin, B. and V. Falaleeva (2016), Spectra of polarized thermal radiation in a cloudy atmosphere: Line-by-Line and Monte Carlo model for passive remote sensing of cirrus and polar cloudsJournal of Quantitative Spectroscopy and Radiative Transfer, 177, 301-317, cited By 0, doi:10.1016/j.jqsrt.2016.03.004.
  5. Fernandez, S., R. Rüfenacht, N. Kämpfer, T. Portafaix, F. Posny, and G. Payen (2016), Results from the validation campaign of the ozone radiometer GROMOS-C at the NDACC station of Réunion islandAtmospheric Chemistry and Physics, 16(12), 7531-7543, cited By 0, doi:10.5194/acp-16-7531-2016.
  6. Lainer, M., K. Hocke, and N. Kämpfer (2016), Variability of mesospheric water vapor above Bern in relation to the 27-day solar rotation cycleJournal of Atmospheric and Solar-Terrestrial Physics, 143-144, 71-87, cited By 0, doi:10.1016/j.jastp.2016.03.008.
  7. Brogniez, H., S. English, J.-F. Mahfouf, A. Behrendt, W. Berg, S. Boukabara, S.A. Buehler, P. Chambon, A. Gambacorta, A. Geer, W. Ingram, E.R. Kursinski, M. Matricardi, T.A. Odintsova, V.H. Payne, P.W. Thorne, M.Y. Tretyakov, and J. Wang (2016), A review of sources of systematic errors and uncertainties in observations and simulations at 183 GHzAtmospheric Measurement Techniques, 9(5), 2207-2221, cited By 0, doi:10.5194/amt-9-2207-2016.
  8. Kylling, A. (2016), Ash and ice clouds during the Mt Kelud February 2014 eruption as interpreted from IASI and AVHRR/3 observationsAtmospheric Measurement Techniques, 9(5), 2103-2117, cited By 0, doi:10.5194/amt-9-2103-2016.
  9. Emde, C., R. Buras-Schnell, A. Kylling, B. Mayer, J. Gasteiger, U. Hamann, J. Kylling, B. Richter, C. Pause, T. Dowling, and L. Bugliaro (2016), The libRadtran software package for radiative transfer calculations (version 2.0.1)Geoscientific Model Development, 9(5), 1647-1672, cited By 2, doi:10.5194/gmd-9-1647-2016.
  10. Rüfenacht, R., K. Hocke, and N. Kämpfer (2016), First continuous ground-based observations of long period oscillations in the vertically resolved wind field of the stratosphere and mesosphereAtmospheric Chemistry and Physics, 16(8), 4915-4925, cited By 0, doi:10.5194/acp-16-4915-2016.
  11. Larsson, R., M. Milz, P. Rayer, R. Saunders, W. Bell, A. Booton, S.A. Buehler, P. Eriksson, and V.O. John (2016), Modeling the Zeeman effect in high-altitude SSMIS channels for numerical weather prediction profiles: Comparing a fast model and a line-by-line modelAtmospheric Measurement Techniques, 9(2), 841-857, cited By 0, doi:10.5194/amt-9-841-2016.
  12. Forkman, P., O.M. Christensen, P. Eriksson, B. Billade, V. Vassilev, and V.M. Shulga (2016), A compact receiver system for simultaneous measurements of mesospheric CO and O3Geoscientific Instrumentation, Methods and Data Systems, 5(1), 27-44, cited By 0, doi:10.5194/gi-5-27-2016.
  13. Moradi, I., R.R. Ferraro, B.J. Soden, P. Eriksson, and P. Arkin (2015), Retrieving Layer-Averaged Tropospheric Humidity from Advanced Technology Microwave Sounder Water Vapor ChannelsIEEE Transactions on Geoscience and Remote Sensing, 53(12), 6675-6688, cited By 0, doi:10.1109/TGRS.2015.2445832.
  14. Aires, F., C. Prigent, E. Orlandi, M. Milz, P. Eriksson, S. Crewell, C.-C. Lin, and V. Kangas (2015), Microwave hyperspectral measurements for temperature and humidity atmospheric profiling from satellite: The clear-sky caseJournal of Geophysical Research: Atmospheres, 120(21), 11334-11351, cited By 0, doi:10.1002/2015JD023331.
  15. Yang, J. and Q. Min (2015), A passive and active microwave-vector radiative transfer (PAM-VRT) modelJournal of Quantitative Spectroscopy and Radiative Transfer, 165, 123-133, cited By 1, doi:10.1016/j.jqsrt.2015.06.028.
  16. Moreira, L., K. Hocke, E. Eckert, T. Von Clarmann, and N. Kämpfer (2015), Trend analysis of the 20-year time series of stratospheric ozone profiles observed by the GROMOS microwave radiometer at BernAtmospheric Chemistry and Physics, 15(19), 10999-11009, cited By 1, doi:10.5194/acp-15-10999-2015.
  17. Schreier, F., S. Gimeno García, M. Vasquez, and J. Xu (2015), Algorithmic vs. finite difference Jacobians for infrared atmospheric radiative transferJournal of Quantitative Spectroscopy and Radiative Transfer, 164, 147-160, cited By 1, doi:10.1016/j.jqsrt.2015.06.002.
  18. Mahfouf, J.-F., C. Birman, F. Aires, C. Prigent, E. Orlandi, and M. Milz (2015), Information content on temperature and water vapour from a hyper-spectral microwave sensorQuarterly Journal of the Royal Meteorological Society, 141(693), 3268-3284, cited By 1, doi:10.1002/qj.2608.
  19. Wiegner, M. and J. Gasteiger (2015), Correction of water vapor absorption for aerosol remote sensing with ceilometersAtmospheric Measurement Techniques, 8(9), 3971-3984, cited By 3, doi:10.5194/amt-8-3971-2015.
  20. Ryan, N.J. and K.A. Walker (2015), The effect of spectroscopic parameter inaccuracies on ground-based millimeter wave remote sensing of the atmosphereJournal of Quantitative Spectroscopy and Radiative Transfer, 161, 50-59, cited By 0, doi:10.1016/j.jqsrt.2015.03.012.
  21. Fernandez, S., A. Murk, and N. Kämpfer (2015), GROMOS-C, a novel ground-based microwave radiometer for ozone measurement campaignsAtmospheric Measurement Techniques, 8(7), 2649-2662, cited By 4, doi:10.5194/amt-8-2649-2015.
  22. Isoz, O., S.A. Buehler, and P. Eriksson (2015), Intercalibration of microwave temperature sounders using radio occultation measurementsJournal of Geophysical Research Atmospheres, 120(9), 3758-3773, cited By 0, doi:10.1002/2014JD022699.
  23. Christensen, O.M., P. Eriksson, J. Urban, D. Murtagh, K. Hultgren, and J. Gumbel (2015), Tomographic retrieval of water vapour and temperature around polar mesospheric clouds using Odin-SMRAtmospheric Measurement Techniques, 8(5), 1981-1999, cited By 2, doi:10.5194/amt-8-1981-2015.
  24. Tschanz, B. and N. Kämpfer (2015), Signatures of the 2-day wave and sudden stratospheric warmings in Arctic water vapour observed by ground-based microwave radiometryAtmospheric Chemistry and Physics, 15(9), 5099-5108, cited By 0, doi:10.5194/acp-15-5099-2015.
  25. Eriksson, P., M. Jamali, J. Mendrok, and S.A. Buehler (2015), On the microwave optical properties of randomly oriented ice hydrometeorsAtmospheric Measurement Techniques, 8(5), 1913-1933, cited By 0, doi:10.5194/amt-8-1913-2015.
  26. Navas-Guzmán, F., N. Kämpfer, A. Murk, R. Larsson, S.A. Buehler, and P. Eriksson (2015), Zeeman effect in atmospheric O2 measured by ground-based microwave radiometryAtmospheric Measurement Techniques, 8(4), 1863-1874, cited By 3, doi:10.5194/amt-8-1863-2015.
  27. Galligani, V.S., C. Prigent, E. Defer, C. Jimenez, P. Eriksson, J.P. Pinty, and J.P. Chaboureau (2015), Meso-scale modelling and radiative transfer simulations of a snowfall event over France at microwaves for passive and active modes and evaluation with satellite observationsAtmospheric Measurement Techniques, 8(3), 1605-1616, cited By 0, doi:10.5194/amt-8-1605-2015.
  28. Sica, R.J. and A. Haefele (2015), Retrieval of temperature from a multiple-channel Rayleigh-scatter lidar using an optimal estimation methodApplied Optics, 54(8), 1872-1889, cited By 6, doi:10.1364/AO.54.001872.
  29. Mathew, N., V.O. John, C. Suresh Raju, and K. Krishna Moorthy (2015), Upper tropospheric humidity from SAPHIR on-board Megha-TropiquesCurrent Science, 108(10), 1915-1922, cited By 0.
  30. Ryan, N.J. and K.A. Walker (2015), Characterization and simulation of a ground-based millimeter wave observation system for Arctic atmospheric researchJournal of Quantitative Spectroscopy and Radiative Transfer, 151, 26-37, cited By 1, doi:10.1016/j.jqsrt.2014.09.010.
  31. Clain, G., H. Brogniez, V.H. Payne, V.O. John, and M. Luo (2015), An assessment of SAPHIR calibration using quality tropical soundingsJournal of Atmospheric and Oceanic Technology, 32(1), 61-78, cited By 5, doi:10.1175/JTECH-D-14-00054.1.
  32. Li, X., L. Chen, A. Guo, L. Su, S. Jia, J. Tao, and Y. Zhang (2015), Sub-millimeter wave limb sounding simulation of the plume flow of a high-flying vehicleJournal of Remote Sensing, 19(1), 54-61, cited By 0, doi:10.11834/jrs.20153314.
  33. Redl, R., A.H. Fink, and P. Knippertz (2015), An objective detection method for convective cold pool events and its application to northern AfricaMonthly Weather Review, 143(12), 5055-5072, cited By 2, doi:10.1175/MWR-D-15-0223.1.
  34. Martinet, P., A. Dabas, J.-M. Donier, T. Douffet, O. Garrouste, and R. Guillot (2015), 1D-Var temperature retrievals from microwave radiometer and convective scale modelTellus, Series A: Dynamic Meteorology and Oceanography, 6(1), cited By 0, doi:10.3402/tellusa.v67.27925.
  35. Rüfenacht, R., A. Murk, N. Kämpfer, P. Eriksson, and S.A. Buehler (2014), Middle-atmospheric zonal and meridional wind profiles from polar, tropical and midlatitudes with the ground-based microwave Doppler wind radiometer WIRAAtmospheric Measurement Techniques, 7(12), 4491-4505, cited By 7, doi:10.5194/amt-7-4491-2014.
  36. Eriksson, P., B. Rydberg, H. Sagawa, M.S. Johnston, and Y. Kasai (2014), Overview and sample applications of SMILES and Odin-SMR retrievals of upper tropospheric humidity and cloud ice massAtmospheric Chemistry and Physics, 14(23), 12613-12629, cited By 2, doi:10.5194/acp-14-12613-2014.
  37. Renker, M., A. Murk, S.P. Rea, A. Emrich, and U. Frisk (2014), Sideband characterization and atmospheric observations with various 340 GHz heterodyne receiversReview of Scientific Instruments, 85(8), cited By 0, doi:10.1063/1.4892806.
  38. Scheiben, D., B. Tschanz, K. Hocke, N. Kämpfer, S. Ka, and J.J. Oh (2014), The quasi 16-day wave in mesospheric water vapor during boreal winter 2011/2012Atmospheric Chemistry and Physics, 14(13), 6511-6522, cited By 3, doi:10.5194/acp-14-6511-2014.
  39. Navas-Guzmán, F., O. Stähli, and N. Kämpfer (2014), An integrated approach toward the incorporation of clouds in the temperature retrievals from microwave measurementsAtmospheric Measurement Techniques, 7(6), 1619-1628, cited By 1, doi:10.5194/amt-7-1619-2014.
  40. Schreier, F., S. Gimeno García, P. Hedelt, M. Hess, J. Mendrok, M. Vasquez, and J. Xu (2014), GARLIC - A general purpose atmospheric radiative transfer line-by-line infrared-microwave code: Implementation and evaluationJournal of Quantitative Spectroscopy and Radiative Transfer, 137, 29-50, cited By 4, doi:10.1016/j.jqsrt.2013.11.018.
  41. Daae, M., C. Straub, P.J. Espy, and D.A. Newnham (2014), Atmospheric ozone above Troll station, Antarctica observed by a ground based microwave radiometerEarth System Science Data, 6(1), 105-115, cited By 2, doi:10.5194/essd-6-105-2014.
  42. Meharrar, K. and N.E.I. Bachari (2014), Modelling of radiative transfer of natural surfaces in the solar radiation spectrum: development of a satellite data simulator (SDDS)International Journal of Remote Sensing, 35(4), 1199-1216, cited By 1, doi:10.1080/01431161.2013.876116.
  43. Larsson, R. (2014), A note on modelling of the oxygen spectral cross-section in the Atmospheric Radiative Transfer Simulator ? Zeeman effect combined with line mixing in the Earth?s atmosphereInternational Journal of Remote Sensing, 35(15), 5845-5853, cited By 1, doi:10.1080/01431161.2014.945002.
  44. Zevenhoven, R., M. Fält, and L.P. Gomes (2014), Thermal radiation heat transfer: Including wavelength dependence into modellingInternational Journal of Thermal Sciences, 86, 189-197, cited By 3, doi:10.1016/j.ijthermalsci.2014.07.003.
  45. Defer, E., V.S. Galligani, C. Prigent, and C. Jimenez (2014), First observations of polarized scattering over ice clouds at close-to-millimeter wavelengths (157 GHz) with MADRAS on board the Megha-Tropiques missionJournal of Geophysical Research Atmospheres, 119(21), 12301-12316, cited By 1, doi:10.1002/2014JD022353.
  46. Gasteiger, J., C. Emde, B. Mayer, R. Buras, S.A. Buehler, and O. Lemke (2014), Representative wavelengths absorption parameterization applied to satellite channels and spectral bandsJournal of Quantitative Spectroscopy and Radiative Transfer, 148, 99-115, cited By 11, doi:10.1016/j.jqsrt.2014.06.024.
  47. Larsson, R., S.A. Buehler, P. Eriksson, and J. Mendrok (2014), A treatment of the Zeeman effect using Stokes formalism and its implementation in the Atmospheric Radiative Transfer Simulator (ARTS)Journal of Quantitative Spectroscopy and Radiative Transfer, 133, 445-453, cited By 3, doi:10.1016/j.jqsrt.2013.09.006.
  48. Knupp, D.C. and A.J. Silva Neto (2013), Solution of the inverse radiative transfer problem of simultaneous identification of the optical thickness and space-Dependent albedo using bayesian inferenceCMES - Computer Modeling in Engineering and Sciences, 96(5), 339-360, cited By 0.
  49. Li, X., L. Chen, L. Su, Y. Zhang, and J. Tao (2013), Overview of sub-millimeter limb soundingJournal of Remote Sensing, 17(6), 1325-1344, cited By 2, doi:10.11834/jrs.20132279.
  50. Larsson, R., R. Ramstad, J. Mendrok, S.A. Buehler, and Y. Kasai (2013), A method for remote sensing of weak planetary magnetic fields: Simulated application to MarsGeophysical Research Letters, 40(19), 5014-5018, cited By 0, doi:10.1002/grl.50964.
  51. Stähli, O., A. Murk, N. Kämpfer, C. Mätzler, and P. Eriksson (2013), Microwave radiometer to retrieve temperature profiles from the surface to the stratopauseAtmospheric Measurement Techniques, 6(9), 2477-2494, cited By 8, doi:10.5194/amt-6-2477-2013.
  52. Chung, E.-S., B.J. Soden, and V.O. John (2013), Intercalibrating microwave satellite observations for monitoring long-term variations in upper- and midtropospheric water vaporJournal of Atmospheric and Oceanic Technology, 30(10), 2303-2319, cited By 3, doi:10.1175/JTECH-D-13-00001.s1.
  53. Griessbach, S., L. Hoffmann, M. Höpfner, M. Riese, and R. Spang (2013), Scattering in infrared radiative transfer: A comparison between the spectrally averaging model JURASSIC and the line-by-line model KOPRAJournal of Quantitative Spectroscopy and Radiative Transfer, 127, 102-118, cited By 6, doi:10.1016/j.jqsrt.2013.05.004.
  54. Tschanz, B., C. Straub, D. Scheiben, K.A. Walker, G.P. Stiller, and N. Kämpfer (2013), Validation of middle-atmospheric campaign-based water vapour measured by the ground-based microwave radiometer MIAWARA-CAtmospheric Measurement Techniques, 6(7), 1725-1745, cited By 7, doi:10.5194/amt-6-1725-2013.
  55. Nasir, F.T., C. Castiglia, F. Buffa, G.L. Deiana, A. Delitala, and A. Tarchi (2013), Weather forecasting and dynamic scheduling for a modern cm/mm wave radiotelescopeExperimental Astronomy, 36(1-2), 407-424, cited By 0, doi:10.1007/s10686-013-9339-0.
  56. Moradi, I., B. Soden, R. Ferraro, P. Arkin, and H. Vömel (2013), Assessing the quality of humidity measurements from global operational radiosonde sensorsJournal of Geophysical Research Atmospheres, 118(14), 8040-8053, cited By 13, doi:10.1002/jgrd.50589.
  57. Scheiben, D., A. Schanz, B. Tschanz, and N. Kämpfer (2013), Diurnal variations in middle-atmospheric water vapor by ground-based microwave radiometryAtmospheric Chemistry and Physics, 13(14), 6877-6886, cited By 3, doi:10.5194/acp-13-6877-2013.
  58. Christensen, O.M. and P. Eriksson (2013), Time series inversion of spectra from ground-based radiometersAtmospheric Measurement Techniques, 6(7), 1597-1609, cited By 3, doi:10.5194/amt-6-1597-2013.
  59. Jiménez, C., S. Gulkis, G. Beaudin, T. Encrenaz, P. Eriksson, L. Kamp, S. Lee, and S.A. Buehler (2013), Sub-millimeter observations of the terrestrial atmosphere during an Earth flyby of the MIRO sounder on the Rosetta spacecraftPlanetary and Space Science, 82-83, 99-112, cited By 1, doi:10.1016/j.pss.2013.03.016.
  60. Millán, 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 productsJournal of Geophysical Research Atmospheres, 118(12), 6468-6477, cited By 7, doi:10.1002/jgrd.50322.
  61. Galligani, V.S., C. Prigent, E. Defer, C. Jimenez, and P. Eriksson (2013), The impact of the melting layer on the passive microwave cloud scattering signal observed from satellites: A study using TRMM microwave passive and active measurementsJournal of Geophysical Research Atmospheres, 118(11), 5667-5678, cited By 5, doi:10.1002/jgrd.50431.
  62. Straub, C., P.J. Espy, R.E. Hibbins, and D.A. Newnham (2013), Mesospheric CO above Troll station, Antarctica observed by a ground based microwave radiometerEarth System Science Data, 5(1), 199-208, cited By 5, doi:10.5194/essd-5-199-2013.
  63. Schreier, F., S.G. Garcia, M. Milz, A. Kottayil, M. Höpfner, T. Von Clarmann, and G. Stiller (2013), Intercomparison of three microwave/infrared high resolution line-by-line radiative transfer codes, , pp. 119-122, cited By 0, doi:10.1063/1.4804722.
  64. Moradi, I., S.A. Buehler, V.O. John, A. Reale, and R.R. Ferraro (2013), Evaluating instrumental inhomogeneities in global radiosonde upper tropospheric humidity data using microwave satellite dataIEEE Transactions on Geoscience and Remote Sensing, 51(6), 3615-3624, cited By 4, doi:10.1109/TGRS.2012.2220551.
  65. Forkman, P., O.M. Christensen, P. Eriksson, J. Urban, and B. Funke (2012), Six years of mesospheric CO estimated from ground-based frequency-switched microwave radiometry at 57 N compared with satellite instrumentsAtmospheric Measurement Techniques, 5(11), 2827-2841, cited By 6, doi:10.5194/amt-5-2827-2012.
  66. Rea, S.P., M. Renker, B.P. Moyna, D. Gerber, M. Whale, and A. Murk (2012), First-light atmospheric observations with a 340 GHz sideband-separating schottky diode receiver, , cited By 0, doi:10.1109/IRMMW-THz.2012.6380381.
  67. Buehler, S.A., E. Defer, F. Evans, S. Eliasson, J. Mendrok, P. Eriksson, C. Lee, C. Jiménez, 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 8Atmospheric Measurement Techniques, 5(7), 1529-1549, cited By 16, doi:10.5194/amt-5-1529-2012.
  68. Rüfenacht, R., N. Kämpfer, and A. Murk (2012), First middle-atmospheric zonal wind profile measurements with a new ground-based microwave Doppler-spectro-radiometerAtmospheric Measurement Techniques, 5(11), 2647-2659, cited By 15, doi:10.5194/amt-5-2647-2012.
  69. Daae, M., P. Espy, H. Nesse Tyssy, D. Newnham, J. Stadsnes, and F. Sraas (2012), The effect of energetic electron precipitation on middle mesospheric night-time ozone during and after a moderate geomagnetic stormGeophysical Research Letters, 39(21), cited By 10, doi:10.1029/2012GL053787.
  70. Holl, G., S.A. Buehler, J. Mendrok, and A. Kottayil (2012), Optimised frequency grids for infrared radiative transfer simulations in cloudy conditionsJournal of Quantitative Spectroscopy and Radiative Transfer, 113(16), 2124-2134, cited By 0, doi:10.1016/j.jqsrt.2012.05.022.
  71. Bleisch, R. and N. Kämpfer (2012), Adding constraints by in situ informations to optimal estimation retrievals of tropospheric water vapour profiles from microwave radiometryJournal of Quantitative Spectroscopy and Radiative Transfer, 113(16), 1993-2003, cited By 0, doi:10.1016/j.jqsrt.2012.07.002.
  72. Zakharova, N.T., G. Videen, and N.G. Khlebtsov (2012), Comprehensive T-matrix reference database: A 2009-2011 updateJournal of Quantitative Spectroscopy and Radiative Transfer, 113(14), 1844-1852, cited By 11, doi:10.1016/j.jqsrt.2012.04.009.
  73. Bleisch, R. and N. Kampfer (2012), Retrieval of tropospheric water vapour profiles by using spectra from a microwave spectro-radiometer at 22 GHz, , cited By 0, doi:10.1109/MicroRad.2012.6185249.
  74. De Lange, A., M. Birk, G. De Lange, F. Friedl-Vallon, O. Kiselev, V. Koshelets, G. Maucher, H. Oelhaf, A. Selig, P. Vogt, G. Wagner, and J. Landgraf (2012), HCl and ClO in activated Arctic air; first retrieved vertical profiles from TELIS submillimetre limb spectraAtmospheric Measurement Techniques, 5(2), 487-500, cited By 10, doi:10.5194/amt-5-487-2012.
  75. Gangopadhyay, P.K., F. van der Meer, and P. van Dijk (2012), The use of spectral remote sensing for detecting and monitoring gaseous emission from active coal fires, , cited By 0.
  76. Kottayil, A., S.A. Buehler, V.O. John, L.M. Miloshevich, M. Milz, and G. Holl (2012), On the importance of Vaisala RS92 radiosonde humidity corrections for a better agreement between measured and modeled satellite radiancesJournal of Atmospheric and Oceanic Technology, 29(2), 248-259, cited By 17, doi:10.1175/JTECH-D-11-00080.1.
  77. Császár, A.G., C. Fábri, T. Szidarovszky, E. Mátyus, T. Furtenbacher, and G. Czakó (2012), The fourth age of quantum chemistry: Molecules in motionPhysical Chemistry Chemical Physics, 14(3), 1085-1106, cited By 70, doi:10.1039/c1cp21830a.
  78. Höpfner, M., M. Milz, S. Buehler, J. Orphal, and G. Stiller (2012), The natural greenhouse effect of atmospheric oxygen (O2) and nitrogen (N2)Geophysical Research Letters, 39(10), cited By 4, doi:10.1029/2012GL051409.
  79. John, V.O., G. Holl, S.A. Buehler, B. Candy, R.W. Saunders, and D.E. Parker (2012), Understanding intersatellite biases of microwave humidity sounders using global simultaneous nadir overpassesJournal of Geophysical Research Atmospheres, 117(2), cited By 19, doi:10.1029/2011JD016349.
  80. Hoffmann, C.G., U. Raffalski, M. Palm, B. Funke, S.H.W. Golchert, G. Hochschild, and J. Notholt (2011), Observation of strato-mesospheric CO above Kiruna with ground-based microwave radiometry - Retrieval and satellite comparisonAtmospheric Measurement Techniques, 4(11), 2389-2408, cited By 8, doi:10.5194/amt-4-2389-2011.
  81. Straub, C., A. Murk, N. Kämpfer, S.H.W. Golchert, G. Hochschild, K. Hallgren, and P. Hartogh (2011), ARIS-Campaign: Intercomparison of three ground based 22 GHz radiometers for middle atmospheric water vapor at the Zugspitze in winter 2009Atmospheric Measurement Techniques, 4(9), 1979-1994, cited By 4, doi:10.5194/amt-4-1979-2011.
  82. Takahashi, C., M. Suzuki, C. Mitsuda, S. Ochiai, N. Manago, H. Hayashi, Y. Iwata, K. Imai, T. Sano, M. Takayanagi, and M. Shiotani (2011), Capability for ozone high-precision retrieval on JEM/SMILES observationAdvances in Space Research, 48(6), 1076-1085, cited By 7, doi:10.1016/j.asr.2011.04.038.
  83. Eriksson, P., B. Rydberg, and S.A. Buehler (2011), On cloud ice induced absorption and polarisation effects in microwave limb soundingAtmospheric Measurement Techniques, 4(6), 1305-1318, cited By 5, doi:10.5194/amt-4-1305-2011.
  84. Buehler, S.A., P. Eriksson, and O. Lemke (2011), Absorption lookup tables in the radiative transfer model ARTSJournal of Quantitative Spectroscopy and Radiative Transfer, 112(10), 1559-1567, cited By 10, doi:10.1016/j.jqsrt.2011.03.008.
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  151. Melsheimer, C., C. Verdes, S.A. Buehler, C. Emde, P. Eriksson, D.G. Feist, S. Ichizawa, V.O. John, Y. Kasai, G. Kopp, N. Koulev, T. Kuhn, O. Lemke, S. Ochiai, F. Schreier, T.R. Sreerekha, M. Suzuki, C. Takahashi, S. Tsujimaru, and J. Urban (2005), Intercomparison of general purpose clear sky atmospheric radiative transfer models for the millimeter/submillimeter spectral rangeRadio Science, 40(1), cited By 54, doi:10.1029/2004RS003110.
  152. Deuber, B., A. Haefele, D.G. Feist, L. Martin, N. Kämpfer, G.E. Nedoluha, V. Yushkov, S. Khaykin, R. Kivi, and H. Vömel (2005), Middle Atmospheric Water Vapour Radiometer (MIAWARA): Validation and first results of the LAPBIAT Upper Tropospheric Lower Stratospheric Water Vapour Validation Project (LAUTLOS-WAWAP) campaignJournal of Geophysical Research Atmospheres, 110(13), cited By 16, doi:10.1029/2004JD005543.
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