• Bourne, S. (2008), A climate perspective of observed and modeled surface- based temperature inversions in Alaska. M.S. thesis, Dept. of Atmospheric Sciences, University of Alaska Fairbanks, 106 pp., [available online at:]
  • Bradley, R. S. and F. T. Keimig (1992), Climatology of surface-based inversions in the North American Arctic, J. Geophys. Res., 97(D14), 15 69915 712.
  • Cadeddu, M. P., G. E. Peckham, C. Gaffard (2002), The vertical resolution of ground-based microwave radiometers analyzed through a multiresolution wavelet technique. IEEE Trans. Geosci. Remote Sens., 40(3), 531540.
  • Cadeddu, M. P., V. H. Payne, S. A. Clough, K. Cady-Pereira, and J. C. Liljegren, (2007), Effect of the oxygen line-parameter modeling on temperature and humidity retrievals from ground-based microwave radiometers. IEEE Trans. Geosci. Remote Sens., 45(7), 22162223.
  • Clough, S., M. Shephard, E. Mlawer, J. Delamere, M. Iacono, K. Cady-Pereira, S. Boukabara, and P. Brown (2005), Atmospheric radiative transfer modeling: a summary of the AER codes, J. Quant. Spectrosc. Radiat. Transfer, 91, 233244.
  • Crewell, S. and U. Löhnert (2003), Accuracy of cloud liquid water path from ground-based microwave radiometry 2. Sensor accuracy and synergy, Radio Sci., 38(3), 8042.
  • Crewell, S. and U. Löhnert (2007), Accuracy of boundary layer temperature profiles retrieved with multifrequency multiangle microwave radiometry, IEEE Trans. Geosci. Remote Sens., 45(7), 21952201.
  • Han, Y. and E. R. Westwater (2000), Analysis and improvement of tipping calibration for ground-based microwave radiometers, IEEE Trans. Geosci. Remote Sens., 38(3), 12601276.
  • Hudson, S. R. and R. E. Brandt (2005), A look at the surface-based temperature inversion on the Antarctic plateau, J. Climate, 18, 16731696.
  • Liebe, H. J., G. A. Hufford, and T. Manabe (1991), A model for the complex permittivity of water at the frequencies below 1 THz, Int. J. Infrared Millim. Waves, 12, 659675.
  • Liljegren, J. C. (2000), Automatic self-calibration of the ARM microwave radiometers. Microwave Radiometry and Remote Sensing of the Environment, P. Pampaloni and S. Palencia, Eds., 433443, VSP Press, Utrecht, The Netherlands.
  • Löhnert, U. and O. Maier (2012), Operational profiling of temperature using ground-based microwave radiometry at Payerne: prospects and challenges, Atmos. Meas. Tech., 5, 11211134.
  • Maschwitz, G., U. Löhnert, S. Crewell, T. Rose, and D. D. Turner (2013), Investigation of ground-based microwave radiometer calibration techniques at 530hPa, Atmos. Meas. Tech., [submitted].
  • Mlawer, E. J., V. H. Payne, J.-L. Moncet, J. S. Delamere, M. J. Alvarado, and D. C. Tobin (2012), Development and recent evaluation of the MT_CKD model of continuum absorption, Phil. Trans. R. Soc. A, 370, 25202556.
  • Payne, V. H., E. J. Mlawer, K. E. Cady-Pereira, and J. Moncet (2011), Water vapor continuum absorption in the microwave, IEEE Trans. Geosci. Remote Sens., 49(6), 21942208.
  • Rodgers, C. D. (2000), Inverse Methods for atmospheric sounding: Theory and Practice. World Scientific, 1–79 pp.
  • Rose, T., S. Crewell, U. Löhnert, and C. Simmer (2005), A network suitable microwave radiometer for operational monitoring of the cloudy atmosphere, Atmos. Res., 75, 183200.
  • Rose, T. and H. Czekala (2009), RPG's atmospheric remote sensing radiometers. Operating manual version 8.04, Radiometer Physics GmbH, 243 pp. [].
  • Shupe, M. D., et al., (2008), A focus on mixed-phase clouds, Bull. Amer. Meteor. Soc., 89, 15491562.
  • Shupe, M. D., et al., (2013), High and dry: New observations of tropospheric and cloud properties above the Greenland Ice Sheet, Bull. Amer. Meteor. Soc., doi:10.1175/BAMS-D-11-00249.1.
  • Sverdrup, H. U., (1926), Scientific work of the Maud Expedition, 1922-1925, Sci. Mon., 22(5), 400410.
  • Turner, D. D., R. O. Knuteson, and H. E. Revercomb (2006), Noise reduction of atmospheric emitted radiance interferometer (AERI) observations using principal component analysis, J. Atmos. Oceanic Technol., 23, 12231238.
  • Turner, D. D., S. A. Clough, J. C. Liljegren, E. E. Clothiaux, K. E. Cady-Pereira, and K. L. Gaustad (2007), Retrieving liquid water path and precipitable water vapor from the atmospheric radiation measurement (ARM) microwave radiometers, IEEE Trans. Geosci. Remote Sens., 45(11), 36803690.
  • Turner, D. D., and E. J. Mlawer (2010), The radiative heating in underexplored bands campaigns, Bull. Amer. Meteor. Soc., 91, 911923.
  • Twomey, S. (1977), Introduction to the Mathematics of Inversion in Remote Sensing and Indirect Measurements, 27149 pp, Dover Publications, Inc, Mineola, New York.
  • Zhang, Y., D. J. Seidel, J. Golaz, C. Deser, and R. A. Tomas (2011), Climatological characteristics of Arctic and Antarctic surface-based inversions, J. Climate, 24, 51675186.