Spectral element Bibliography

  1. Spectral element in Oceanic and Atmospheric Applications
    1. J.C. Levin, D.B. Haidvogel, and M. Iskandarani, 2004, Euler-Lagrange Equations for the Spectral Element Shallow Water System, accepted for publication in Ocean Modelling.
    2. M. Iskandarani and J.C. Levin and B.-J. Choi and D.~B. Haidvogel, Comparison of advection schemes for high order h-p finite element and finite volume methods, Ocean Modeling, 10, No 1--2, pp 233--252, (2005).
    3. Choi, Byoung-Ju, Iskandarani, Mohamed, Levin, Julia, Haidvogel, Dale B. 2004, A Spectral Finite-Volume Method for the Shallow Water Equations, Monthly Weather Review: 132, No 7, pp. 1777–1791.
    4. Boyer, Don L., Haidvogel, Dale B., Pérenne, Nicolas. 2004: Laboratory–Numerical Model Comparisons of Canyon Flows: A Parameter Study. Journal of Physical Oceanography: 34, No. 7, pp. 1588–1609.
    5. Dupont, Frédéric and Charles A. Lin, The Adaptive Spectral Element Method and Comparisons with More Traditional Formulations for Ocean Modeling, Journal of Atmospheric and Oceanic Technology, 21, 135--147, 2004.
    6. Dupont, Frédéric and David N. Straub, Effect of a wavy wall on the single gyre Munk problem, Tellus A, 56, 387--399, 2004.
    7. Francis X. Giraldo, J.B. Perot and Paul F. Fischer, A Spectral Element Semi-Lagrangian (SESL) method for the spherical shallow water equations Journal of Computational Physics , 190, 623-650, 2003.
    8. Francis X. Giraldo and Thomas E. Rosmond, A Scalable Spectral Element Eulerian Atmospheric Model (SEE-AM) for NWP: Dynamical Core Tests Monthly Weather Review pages 133-153, 2004.
    9. Dale B. Haidvogel, Cross-shelf exchanges driven by oscillatory barotropic currents over an isolated coastal canyon: Equilibrium circulation and dynamics, submitted to Journal of Physical Oceanographic, (2003).
    10. M. Iskandarani, D.B. Haidvogel, and J. Levin, ``A Three-Dimensional Spectral Element Model for the Solution of the Hydrostatic Primitive Equations''. Journal of Computational Physics, 186, 2, 361--705, 2003.
    11. A. Molcard, N. Pinardi, M. Iskandarani and D.B. Haidvogel, ``Wind driven circulation of the Mediterranean sea simulated with a spectral element ocean model'', Dynamics of Atmospheres and Oceans, 35, 97--130, (2002).
    12. M. Iskandarani, D.B. Haidvogel, J. Levin, E. N. Curchitser, and C. A. Edwards, ``Multiscale geophysical modeling using the spectral element method'', Computing in Science and Engineering, 4, No 5, 42--48, 2002.
    13. F.X. Giraldo, J.S. Hesthaven, and T. Warburton, ``A Three-Dimensional Nodal High-Order Discontinuous Galerkin Methods for the Spherical Shallow Water Equations, Journal of Computational Physics, 181, no. 2, 499--525, (2002).
    14. Thomas, S.J., R.D. Loft, (2002) Semi-Implicit Spectral Element Atmosphere Model, Journal of Scitific Computing, 17, no 1-4, 339-350.
    15. Pérenne, Nicolas, Haidvogel, Dale B., Boyer, Don L. 2001: Laboratory–Numerical Model Comparisons of Flow over a Coastal Canyon. Journal of Atmospheric and Oceanic Technology: 18, No. 2, pp. 235–255.
    16. E. N. Curchitser, D.B. Haidvogel, and M. Iskandarani, ``On the transient adjustment of a mid-latitude abyssal ocean basin with realistic geometry and bathymetry'', Journal of Physical Oceanography, 31, No 3, (2001).
    17. Thomas, S.J., R.D. Loft, 2002: Parallel Semi-Implicit Spectral Element Atmosphere Model, Journal of Scitific Computing, 15, no 4, 499-518.
    18. Loft, R.D., S.J. Thomas, J.M. Dennis, 2001: Terascale Spectral Element Dynamical Core for Atmospheric General Circulation Models. Proceedings of the Supercomputing 2001 Conference. ACM and IEEE Computer Society, CD-ROM.
    19. D.B. Haidvogel and A. Beckmann, Numerical Ocean Circulation Modeling, Imperial College Press, 1999.
    20. E. N. Curchitser, D.B. Haidvogel, and M. Iskandarani, On the Transient Adjustment of a Mid-Latitude Abyssal Ocean Basin with Realistic Geometry: The Constant Depth Limit, Dynamics of Atmosphere and Oceans , 29, (2-4), 147 (1999).
    21. M. Taylor and R. Loft and J. Tribbia, Performance of a spectral element atmospheric model (SEAM) on the HP Exemplar SPP2000 , NCAR/TN-439+EDD, National Center for Atmospheric Research, Boulder CO, (1998).
    22. F.X. Giraldo, The Lagrange-Galerkin Spectral Element Method on Unstructured Quadrilateral Grids, Journal of Computational Physics, 147, number 1, 114--146, (1998).
    23. E. N. Curchitser, M. Iskandarani, and D. B. Haidvogel, ``A spectral element solution of the shallow water equations on multiprocessor computers'', Journal of Atmospheric and Oceanographic Technology, 15 (2), 510-521, (1998).
    24. C. Wunsch and D. B. Haidvogel and M. Iskandarani and R. Hughes, Dynamics of the Long-Period Tides, Progress in Oceanography , 40, 1/4, 80--108, (1997).
    25. J. Levin, M. Iskandarani , and D. B. Haidvogel, ``A Spectral Filtering Procedure for Eddy Resolving Simulations with a Spectral Element Ocean Model'', Journal of Computational Physics , 137 (1), 130 (1997).
    26. M. Taylor, J. Tribbia, and M. Iskandarani, ``The spectral element method for the shallow water equations on the sphere'', Journal of Computational Physics, 130 (1), 92 (1997).
    27. D.B. Haidvogel, E. N. Curchitser, M. Iskandarani, R. Hughes, and M. Taylor, ``Global modeling of the ocean and atmosphere using the spectral element method'', Ocean-Atmosphere, 35 (1), p 505-531, (1997).
    28. B. Wingate and J. P. Boyd, Spectral element methods on triangles for geophysical fluid dynamics problems, Proceedings of the Third International Conference On Spectral and High-Order Methods, eds: A.V. Ilin and L.R. Scott, Houston Journal of Mathematics, Houston TX, 305-314, (1996).
    29. M. Iskandarani, D.B. Haidvogel, and J.P. Boyd, ``A staggered spectral element model for the shallow water equations'', International Journal for Numerical Methods in Fluids, 20 (5), 393-414, (1995).
    30. H. Ma, A spectral element basin model for the shallow water equations, Journal of Computational Physics, 109, 133--149, (1993).
  2. Spectral element bibliography