Meteorologie
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Inhaltsbereich
2018

  • Kilroy G, Smith RK and Montgomery MT, 2018, The role of heating and cooling associated with ice processes on tropical cyclogenesis and intensification, Quart. J. Roy. Meteor. Soc., 144, 99-114.

2017

  • Kilroy G and Smith RK, 2017, The effects of initial vortex size on tropical cyclogenesis and intensification, Quart. J. Roy. Meteor. Soc., 143, 2832–2845.
  • Kilroy G, Montgomery MT and Smith RK, 2017, The role of boundary-layer friction on tropical cyclogenesis and intensification, Quart. J. Roy. Meteor. Soc., 143, 2524-2536.
  • Kilroy G, Smith RK and Montgomery MT, 2017, A unified view of tropical cyclogenesis and intensification, Quart. J. Roy. Meteor. Soc., 143, 450-462.
  • Kilroy G, Smith RK and Montgomery MT, 2017, Tropical low formation and intensification over land as seen in ECMWF analyses, Quart. J. Roy. Meteor. Soc., 143, 772-784.
  • Montgomery MT and Smith RK, 2017, On the applicability of linear, axisymmetric dynamics in intensifying and mature tropical cyclones., Fluids, 2 (4), 69.
  • Montgomery MT and Smith RK, 2017, Recent developments in the fluid dynamics of tropical cyclones, Annu. Rev. Fluid Mech., 49, 541-574.
  • Smith RK, J. A. Zhang and M. T. Montgomery, 2017, The dynamics of intensification in an HWRF simulation of Hurricane Earl (2010), Quart. J. Roy. Meteor. Soc., 143, 293-308.

2016

  • Crnivec N and Smith RK, 2016, Mean radiosonde soundings for the Australian monsoon/cyclone season, Intern. J. Clim., 37, 66-78.
  • Crnivec N, Smith RK and Kilroy G, 2016, Dependence of tropical cyclone intensification rate on sea surface temperature. , Quart. J. Roy. Meteor. Soc., 142, 1618-1627.
  • Kilroy G and Smith RK, 2016, A numerical study of deep convection in tropical cyclones, Quart. J. Roy. Meteor. Soc., 142, 3138-3151.
  • Kilroy G, Smith RK and Montgomery MT, 2016, Why do model tropical cyclones grow progressively in size and decay in intensity after reaching maturity?, J. Atmos. Sci., 73, 487-503.
  • Kilroy G, Smith RK, Montgomery MT, Lynch B and Earl-Spurr C, 2016, A case study of a monsoon low that formed over the sea and intensified over land as seen in the ECMWF analyses, Quart. J. Roy. Meteor. Soc., 142, 2244-2255.
  • Schmidt CW and Smith RK, 2016, Southerly nocturnal bore generation over northeastern Australia, Quart. J. Roy. Meteor. Soc., 143, 395–407.
  • Schmidt CW and Smith RK, 2016, Tropical cyclone evolution in a minimal axisymmetric model revisited, Quart. J. Roy. Meteor. Soc., 142, 1505-1516.
  • Smith RK and Montgomery MT, 2016, Comments on: Nonlinear response of a tropical cyclone vortex to prescribed eyewall heating with and without surface friction in TCM4: Implications for tropical cyclone intensification, by J. Heng and Y. Wang, J. Atmos. Sci., 73, 5101–5103.
  • Smith RK and Montgomery MT, 2016, The efficiency of diabatic heating and tropical cyclone intensification, Quart. J. Roy. Meteor. Soc., 142, 2081-2086.
  • Smith RK and Montgomery MT, 2016, Understanding hurricanes, Weather, 71, 219-223.
  • Tang S, Smith RK, Montgomery MT and Gu M, 2016, Numerical study of the spin up of a tropical low over land during the Australian monsoon, Quart. J. Roy. Meteor. Soc., 142, 2021-2032.

2015

  • Montgomery, M.T., J. Persing, and R.K. Smith, 2015, Putting to rest WISHE-ful misconceptions , J. Adv. Model. Earth Syst., 07,
  • Smith R.K. and M.J. Reeder, 2015, A review of research on the dry season mesoscale meteorology of northern Australia., Aust. Meteor. Ocean. Journl., (in press),
  • Smith RK and Montgomery MT, 2015, Towards clarity on understanding tropical cyclone intensification, J. Atmos. Sci., 72, 3020-3031.
  • Smith, R.K. , G. Kilroy and M.T. Montgomery, 2015, Why do model tropical cyclones intensify more rapidly at low latitudes?, J. Atmos. Sci., 72, 1783-1804.
  • Smith, R.K., M.T. Montgomery, G. Kilroy, S. Tang, and S. Müller, 2015, Tropical low formation during the Australian monsoon: the events of January 2013, Aust. Meteor. Ocean. Journl., (in press),
  • Thomsen, G., R. K. Smith, and M. T. Montgomery, 2015, Tropical-cyclone flow asymmetries induced by a uniform flow revisited, J. Adv. Model. Earth Syst., 07,

2014

  • Kilroy, G., R.K. Smith and U. Wissmeier, 2014, Tropical cyclone convection: the effects of ambient vertical and horizontal vorticity, Quart. J. Roy Met. Soc., 140, 1756-1770.
  • Kilroy, G., and R.K. Smith, 2014, Tropical-cyclone convection: the effects of a vortex boundary layer wind profile on deep convection., Quart. J. Roy Met. Soc., 141, 714-726.
  • Montgomery, M.T. and R.K. Smith, 2014, Paradigms for tropical-cyclone intensification, Aust. Meteor. Ocean. Journl. (Bruce Morton Memorial Volume), 64, 37-66.
  • Montgomery, M.T., J.A. Zhang, and R.K. Smith, 2014, The low-level structure of rapidly intensifying and mature Hurricane Earl (2010)., Quart. J. Roy Met. Soc., 140, 2132-2146.
  • Montgomery, M.T., S.F. Abarca, R.K. Smith, C-C Wu, Y-H. Huang, 2014, Comments on 'How does the boundary layer contribute to eyewall replacement cycles in axisymmetric tropical cyclones?' by J. D. Kepert, J. Atmos. Sci., 71, 4682-4691.
  • Sanger, N.T., M.T. Montgomery, R.K. Smith, and M.M. Bell, 2014, An observational study of tropical cyclone spin-up in Supertyphoon Jangmi (2008) from 24 - 27 September., Mon. Wea. Rev., 142, 3-28.
  • Smith, R.K. and M.T. Montgomery, 2014, On the existence of the logarithmic surface layer in hurricanes., Quart. J. Roy Met. Soc., 140, 72-81.
  • Smith, R.K., M.T. Montgomery and G. Thomsen, 2014, Sensitivity of tropical cyclone models to the surface drag coefficient in different boundary-layer schemes, Quart. J. Roy Met. Soc., 140, 792-804.
  • Smith, R.K., M.T. Montgomery, J. Persing, 2014, On steady state tropical cyclones, Quart. J. Roy Met. Soc., 140, 2638-2146.
  • Thosmen, G.L., M.T. Montgomery and R.K. Smith, 2014, Sensitivity of tropical cyclone intensification to perturbations in the surface drag coefficient., Quart. J. Roy Met. Soc., 140, 407-415.
  • Zhang, L.A., M. T. Montgomery, F. D. Marks, and R. K. Smith, 2014, Comments on: Symmetric and asymmetric structures of hurricane boundary layer in coupled atmosphere-wave-ocean models and observations, J. Atmos. Sci., 71, 2782-7587.

2013

  • Kilroy, G. and R. K. Smith, 2013, A numerical study of rotating convection during tropical cyclogenesis., Quart. J. Roy Met. Soc., 139, 1255-1269.
  • Persing, J., M. T. Montgomery, J. McWilliams, and R. K. Smith, 2013, Asymmetric and axisymmetric dynamics of tropical cyclones., Atmos. Chem. Phys. , 13, 12249-12341.
  • Reeder, M. J., R. K. Smith, D. J. Low, J. Taylor, S. J. Arnup, L. Muir, and G. Thomsen, 2013, Diurnal-Forced Convergence Lines in the Australian Tropics, Quart. J. Roy Met. Soc., 139, 1283-1297.
  • Smith, R.K. and M.T. Montgomery, 2013, How important is the isothermal expansion effect to elevating equivalent potential temperature in the hurricane inner-core?, Quart. J. Roy Met. Soc., 138, 1-5.

2012

  • Montgomery, M. T., and R. K. Smith, 2012, The genesis of Typhoon Nuri as observed during the Tropical Cyclone Structure 2008 (TCS08) field experiment. Part 2: Observations of the convective environment, Atmos. Chem. Phys. , 12, 4001-4009.
  • Montgomery, M. T., C. Davis, T. Dunkerton, Z. Wang, C Velden, R. Torn, S. Majumdar, F. Zhang, R. K. Smith, L. Bosart, M. Bell, J. Haase, M. A. Boothe, 2012, The Pre-Depression Investigation of Cloud Systems in the Tropics (PREDICT) Experiment: Scientific Basis and Some First Results, Bull. Amer. Meteor. Soc., 93, 153-172.
  • Smith, R. K., and M. T. Montgomery, 2012, Observations of the convective environment in developing and non-developing tropical disturbances, Quart. J. Roy Met. Soc., 138, 1721-1739.

2011

  • Nguyen, C. M., M. J. Reeder, N. E. Davidson, R. K. Smith, and M. T. Montgomery,, 2011, Inner-core vacillation cycles during the rapid intensification of Hurricane Katrina, Quart. J. Roy Met. Soc., 137, 829-844.
  • Smith R. K., and T. Spengler, 2011, The dynamics of heat lows over elevated terrain, Quart. J. Roy Met. Soc., 137, 250-263.
  • Smith, R. K., M. T. Montgomery, and C. Schmidt, 2011, Dynamical constraints on the intensity and size of tropical cyclones, Quart. J. Roy Met. Soc., 137, 1841-1855.
  • Wissmeier, U., and R. K. Smith, 2011, Tropical-cyclone convection: the effects of ambient vertical vorticity, Quart. J. Roy Met. Soc., 137, 845-857.

2010

  • Montgomery, M. T., R. K. Smith, and S. V. Nguyen, 2010, Sensitivity of tropical cyclone models to the surface exchange coefficients , Quart. J. Roy Met. Soc., 136, 1945-1953.
  • Montgomery, M. T., and R. K. Smith, 2010, Tropical-cyclone formation: Theory and idealized modelling. Report for the Seventh International Workshop on Tropical Cyclones, La Réunion, Nov. 2010, World Meteorological Organization, Geneva, Switzerland,
  • Schmidt CW and Goler RA, 2010, Nonlinear Waves ahead of Fronts in the Great Australian Bight, Mon. Wea. Rev., 138, 3474-3497.
  • Smith, R. K. and M. T. Montgomery, 2010, Hurricane boundary-layer theory, Quart. J. Roy Met. Soc., 136, 1665-1670.
  • Thomsen, G. L. and R. K. Smith, 2010, Darwin’s second sea breeze.Darwin’s second sea breeze, Aust. Meteor. and Ocean. Journl., 60, 25-36.
  • Wissmeier, U., R. K. Smith, and R. Goler,, 2010, The formation of a multicell thunderstorm behind a sea breeze front, Quart. J. Roy Met. Soc., 136, 2176-2188.

2009

  • Bui, H. H., R. K. Smith, M. T. Montgomery, and J. Peng,, 2009, Balanced and unbalanced aspects of tropical-cyclone intensification, Quart. J. Roy Met. Soc., 135, 1715-1731.
  • Montgomery, M. T. and R. K. Smith, 2009, On an analytical model for the rapid intensification of tropical cyclones, Quart. J. Roy Met. Soc., 136, 549-551.
  • Montgomery, M. T., S. V. Nguyen, R. K. Smith and J. Persing,, 2009, Is WISHE essential for tropical cyclone intensification?, Quart. J. Roy Met. Soc., 135, 1697-1714.
  • Nudelman, I., R. K. Smith, and M. J. Reeder,, 2009, A climatology of pressure jumps around the Gulf of Carpentaria, Aust. Meteor. and Ocean. Journl., 60, 91-101.
  • Smith, R. K. and G. L. Thomsen, 2009, Dependence of tropical-cyclone intensification on the boundary layer representation in a numerical model, Quart. J. Roy Met. Soc. , 136, 1671-1685.
  • Smith, R. K., M. T. Montgomery, and S. V. Nguyen,, 2009, Tropical cyclone spin-up revisited, Quart. J. Roy Met. Soc., 135, 1321-1335.
  • Thomsen, G. L., M. J. Reeder, and R. K. Smith, 2009, The diurnal evolution of cold fronts in the Australian subtropics, Quart. J. Roy Met. Soc., 135, 395-411.
  • Vogl, S. and R. K. Smith, 2009, Limitations of a linear model for the hurricane boundary layer, Quart. J. Roy Met. Soc., 135, 839-850.

2008

  • Nguyen, S. V., R. K. Smith and M. T. Montgomery,, 2008, Tropical-cyclone intensification and predictability in three dimensions, Quart. J. Roy Met. Soc., 134, 563-582.
  • Shin, S. and R. K. Smith, 2008, Tropical-cyclone intensification and predictability in a minimal three dimensional model, Quart. J. Roy Met. Soc., 134, 1661-1671.
  • Smith R. K. and S. Vogl, 2008, A simple model of the hurricane boundary layer revisited, Quart. J. Roy Met. Soc., 134, 337-351.
  • Smith R. K., M. T. Montgomery, and S. Vogl, 2008, A critique of Emanuel's hurricane model and potential intensity theory, Quart. J. Roy Met. Soc., 134, 551-561.
  • Smith R. K., and M. T. Montgomery, 2008, Balanced depth-averaged boundary layers used in hurricane models, Quart. J. Roy Met. Soc., 134, 1385-1395.
  • Spengler, T. and R. K. Smith , 2008, The dynamics of heat lows over flat terrain, Quart. J. Roy Met. Soc., 134, 2157-2172.

2007

  • Smith, R. K., 2007, A balanced axisymmetric vortex in a compressible atmosphere: corrigendum and addendum, Tellus, 59A, 785-786.
  • Thomsen, G. L., and R. K. Smith, 2007, The importance of the boundary layer parameterization in the prediction of low-level convergence lines., Monthly Weather Review, in print,
  • Weinzierl, B., R. K. Smith, M. J. Reeder, and G. Jackson, 2007, MesoLAPS predictions of low-level convergence lines over northeastern Australia, Wea. Forecasting, 22, 910-927.

2006

  • Goler, R., M. J. Reeder, R. K. Smith, H. Richter, S. Arnup, T. Keenan, P. May, and J. Hacker, 2006, Low-level convergence lines over northeastern Australia. I. The North Australian Cloud Line, Monthly Weather Review, 134, 3092-3108.
  • Smith, R. K., M. J. Reeder,  H. Richter, and P. May, 2006, Low-level convergence lines over northeastern Australia. I. Southerly disturbances, Mon. Wea. Rev., 134, 3109-3124.
  • Smith, R. K., M. J. Reeder, H. Richter, and P. May, 2006, Low-level convergence lines over northeastern Australia. I. Southerly disturbances, Monthly Weather Review, 134, 3109-3124.
  • Smith, R. K., 2006, Accurate determination of a balanced axisymmetric vortex, Tellus, 58A, 98-103.
  • Smith, R. K., 2006, Hurricane force, Physics World, 19, 32-37.
  • Thomsen, G., and R. K. Smith, 2006, Simulations of low-level convergence lines over northeastern Australia, Quarterly Journal of the Royal Meteorological Society, 132, 691-70.