Rossby wave second harmonic generation observed in the middle atmosphere
暂无分享,去创建一个
[1] F. Graef,et al. Resonant interactions between Rossby modes in a straight coast and a channel , 2021, Journal of Fluid Mechanics.
[2] J. Forbes,et al. Quasi‐2‐Day Wave in Low‐Latitude Atmospheric Winds as Viewed From the Ground and Space During January–March, 2020 , 2021, Geophysical Research Letters.
[3] J. Forbes,et al. Mesospheric Q2DW Interactions With Four Migrating Tides at 53°N Latitude: Zonal Wavenumber Identification Through Dual‐Station Approaches , 2021, Geophysical Research Letters.
[4] Antonino Francesco Lanza,et al. Rossby Waves in Astrophysics , 2021 .
[5] J. Forbes,et al. Quasi‐10‐Day Wave and Semidiurnal Tide Nonlinear Interactions During the Southern Hemispheric SSW 2019 Observed in the Northern Hemispheric Mesosphere , 2020, Geophysical Research Letters.
[6] P. Hoffmann,et al. Zonal Wave Number Diagnosis of Rossby Wave‐Like Oscillations Using Paired Ground‐Based Radars , 2020, Journal of Geophysical Research: Atmospheres.
[7] J. Forbes,et al. Planetary Wave (PW) Generation in the Thermosphere Driven by the PW‐Modulated Tidal Spectrum , 2020, Journal of Geophysical Research: Space Physics.
[8] M. Dikpati,et al. Space Weather Challenge and Forecasting Implications of Rossby Waves , 2020, Space Weather.
[9] R. Horton,et al. Amplified Rossby waves enhance risk of concurrent heatwaves in major breadbasket regions , 2019, Nature Climate Change.
[10] Jian Rao,et al. The 2019 New Year Stratospheric Sudden Warming and Its Real‐Time Predictions in Multiple S2S Models , 2019, Journal of Geophysical Research: Atmospheres.
[11] M. Bustamante,et al. Nonlinear Rossby Wave–Wave and Wave–Mean Flow Theory for Long-term Solar Cycle Modulations , 2019, The Astrophysical Journal.
[12] C. Jacobi,et al. Forcing mechanisms of the 6 h tide in the mesosphere/lower thermosphere , 2018, Advances in Radio Science.
[13] Q. Lu,et al. In Situ Observations of Harmonic Alfvén Waves and Associated Heavy Ion Heating , 2018, The Astrophysical Journal.
[14] L. Gizon,et al. Global-scale equatorial Rossby waves as an essential component of solar internal dynamics , 2018, Nature Astronomy.
[15] O. Bardsley,et al. Could hydrodynamic Rossby waves explain the westward drift? , 2018, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[16] P. Hoffmann,et al. Relations Between Semidiurnal Tidal Variants Through Diagnosing the Zonal Wavenumber Using a Phase Differencing Technique Based on Two Ground‐Based Detectors , 2018 .
[17] O. Martius,et al. Rossby Wave Propagation into the Northern Hemisphere Stratosphere: The Role of Zonal Phase Speed , 2018 .
[18] M. Dikpati,et al. The Origin of the “Seasons” in Space Weather , 2017, Scientific Reports.
[19] P. Hoffmann,et al. Application of Manley‐Rowe Relation in Analyzing Nonlinear Interactions Between Planetary Waves and the Solar Semidiurnal Tide During 2009 Sudden Stratospheric Warming Event , 2017 .
[20] R. Teed,et al. The dynamics of magnetic Rossby waves in spherical dynamo simulations: A signature of strong-field dynamos? , 2017 .
[21] S. Mathis. Solar physics: Weather of the magnetic Sun , 2017, Nature Astronomy.
[22] S. McIntosh,et al. The detection of Rossby-like waves on the Sun , 2017, Nature Astronomy.
[23] T. Hansson,et al. Singly resonant second-harmonic-generation frequency combs , 2017 .
[24] B. Raphaldini,et al. NONLINEAR DYNAMICS OF MAGNETOHYDRODYNAMIC ROSSBY WAVES AND THE CYCLIC NATURE OF SOLAR MAGNETIC ACTIVITY , 2015 .
[25] Linhao Zhong,et al. A nonlinear multiscale interaction model for atmospheric blocking: The eddy‐blocking matching mechanism , 2014 .
[26] Thomas J. Maccarone,et al. The biphase explained: understanding the asymmetries in coupled Fourier components of astronomical time series , 2013, 1308.3150.
[27] W. Wan,et al. Tidal wind mapping from observations of a meteor radar chain in December 2011 , 2013 .
[28] J. Forbes. Tidal and Planetary Waves , 2013 .
[29] J. Forbes,et al. Quasi-two-day wave-tide interactions as revealed in satellite observations , 2012 .
[30] C. Connaughton,et al. Externally forced triads of resonantly interacting waves: Boundedness and integrability properties , 2012, 1201.2867.
[31] W. Singer,et al. Seasonal variation of mesospheric waves at northern middle and high latitudes , 2010 .
[32] G. Schubert,et al. Saturn’s rotation period from its atmospheric planetary-wave configuration , 2009, Nature.
[33] Anne K. Smith,et al. Planetary waves in coupling the stratosphere and mesosphere during the major stratospheric warming in 2003/2004 , 2008 .
[34] T Sawa,et al. Ketamine increases the frequency of electroencephalographic bicoherence peak on the alpha spindle area induced with propofol. , 2007, British journal of anaesthesia.
[35] B. Roberts,et al. Two-wave interaction in ideal magnetohydrodynamics , 2006, astro-ph/0602535.
[36] P. Ruti,et al. Hayashi spectra of the northern hemisphere mid-latitude atmospheric variability in the NCEP–NCAR and ECMWF reanalyses , 2005, physics/0509145.
[37] P. Lynch. Supplement to Resonant Rossby Wave Triads and the Swinging Spring , 2003 .
[38] H. G. Muller,et al. Global free oscillations of the atmosphere and secondary planetary waves in the mesosphere and lower thermosphere region during August/September time conditions , 2002 .
[39] N. Mitchell,et al. Secondary planetary waves in the middle atmosphere: numerical simulation and analysis of the neutral wind data , 2002 .
[40] A. Pogoreltsev. Numerical simulation of secondary planetary waves arising from the nonlinear interaction of the normal atmospheric modes , 2001 .
[41] T. Hirooka. Normal Mode Rossby Waves as Revealed by UARS/ISAMS Observations , 2000 .
[42] K. Döös. Influence of the Rossby waves on the seasonal cycle in the tropical Atlantic , 1999 .
[43] F. Graef,et al. The nonlinear self-interaction of a baroclinic Rossby mode in a channel and a gulf , 1998 .
[44] C. Torrence,et al. A Practical Guide to Wavelet Analysis. , 1998 .
[45] D. Chelton,et al. Global Observations of Oceanic Rossby Waves , 1996, Science.
[46] J. Forbes,et al. Quasi 16‐day oscillation in the mesosphere and lower thermosphere , 1995 .
[47] M. Bergman. Magnetic Rossby waves in a stably stratified layer near the surface of the Earth's outer core , 1993 .
[48] L. I. Lumb,et al. Inertial waves identified in the Earth's fluid outer core , 1987, Nature.
[49] Steve Elgar,et al. Observations of bispectra of shoaling surface gravity waves , 1985, Journal of Fluid Mechanics.
[50] Anne K. Smith,et al. Wave Transience and Wave-Mean Flow Interaction Caused by the Interference of Stationary and Traveling Waves , 1985 .
[51] M. Allison. Planetary waves in Jupiter's equatorial atmosphere , 1983 .
[52] M. Salby. Rossby Normal Modes in Nonuniform Background Configurations. Part II. Equinox and Solstice Conditions , 1981 .
[53] E. Powers,et al. Bispectrum and nonlinear wave coupling , 1980 .
[54] E. Powers,et al. Digital Bispectral Analysis and Its Applications to Nonlinear Wave Interactions , 1979, IEEE Transactions on Plasma Science.
[55] J. Papaloizou,et al. Non-radial oscillations of rotating stars and their relevance to the short-period oscillations of cataclysmic variables , 1978 .
[56] H. Gustavsson. A Method of Analyzing the Resonance Conditions for a Three-Wave Interaction in a Magnetized Plasma , 1975 .
[57] T. Matsuno,et al. A Dynamical Model of the Stratospheric Sudden Warming , 1971 .
[58] Michael Selwyn Longuet-Higgins,et al. The eigenfunctions of Laplace's tidal equation over a sphere , 1968, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[59] Klaus Hasselmann,et al. Feynman diagrams and interaction rules of wave‐wave scattering processes , 1966 .
[60] C. Peters,et al. Generation of optical harmonics , 1961 .
[61] C. Rossby. Relation between variations in the intensity of the zonal circulation of the atmosphere and the displacements of the semi-permanent centers of action , 1939 .