Phase Reduction Models for Improving the Accuracy of the Finite Element Solution of Time-Harmonic Scattering Problems I: General Approach and Low-Order Models
Antoine, X.; Geuzaine, Christophe
2009 • In Journal of Computational Physics, 228, p. 3114-3136
Geuzaine, Christophe ; Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Applied and Computational Electromagnetics (ACE)
Language :
English
Title :
Phase Reduction Models for Improving the Accuracy of the Finite Element Solution of Time-Harmonic Scattering Problems I: General Approach and Low-Order Models
Antoine X. Fast approximate computation of a time-harmonic scattered field using the on-surface radiation condition method. IMA Journal of Applied Mathematics 66 1 (2001) 83-110
Antoine X. An algorithm coupling the OSRC and FEM for the computation of an approximate scattered acoustic field by a non-convex body. International Journal for Numerical Methods in Engineering 54 7 (2002) 1021-1041
Antoine X. Advances in the On-Surface Radiation Condition Method: Theory, Numerics and Applications. In: Magoulès F. (Ed). Computational Methods for Acoustics Problems (2008), Saxe-Coburg Publications 169-194
Antoine X., Barucq H., and Bendali A. Bayliss-Turkel-like radiation conditions on surfaces of arbitrary shape. Journal of Mathematical Analysis and Applications 229 1 (1999) 184-211
Antoine X., Darbas M., and Lu Y.Y. An improved surface radiation condition for high-frequency acoustic scattering problems. Computer Methods in Applied Mechanics and Engineering 195 33-36 (2006) 4060-4074
X. Antoine, Y. Huang, Y.Y. Lu, Computing high-frequency scattered fields by beam propagation methods: A prospective study, submitted for publication.
Astley R.J., and Eversman W. Finite element formulations for acoustical radiation. Journal of Sound and Vibration 88 (1983) 47-64
Astley R.J. Wave envelope and infinite elements for acoustical radiation. International Journal for Numerical Methods in Fluids 3 5 (1983) 507-526
K.J. Baumeister. Analysis of sound propagation in ducts using the wave envelope concept. Technical report, NASA TN D-7719, 1974.
Baumeister K.J. Finite-difference theory of sound propagation in ducts with variable axial dependence. In: Strahle W., Schwart I.R., and Nagamatsu H.T. (Eds). Progress in Astronautics and Astronautics-Aeroacoustics: Fan noise and control; duct acoustics; rotor noise vol. 44 (1976), AIAA, New York 451-474
K.J. Baumeister, Finite difference theory for sound propagation in lined duct with uniform flow using wave envelope concept, Technical report, NASA TP 1001, 1977.
Bender C.M., and Orszag S.A. Advanced Mathematical Methods for Scientists and Engineers (1978), McGraw-Hill
Bérenger J.P. A perfectly matched layer for the absorption of electromagnetic waves. Journal of Computational Physics 114 (1994) 185-200
Bruno O., Geuzaine C., Monro Jr. J., and Reitich F. Prescribed error tolerances within fixed computational times for scattering problems of arbitrarily high frequency: the convex case. Philosophical Transactions of the Royal Society (Series A: Mathematical, Physical and Engineering Sciences) 362 1816 (2004) 629-645
Colton D., and Kress R. Integral Equation Methods in Scattering Theory. Pure and Applied Mathematics (1983), John Wiley and Sons Inc., New York
Geuzaine C., Bedrossian J., and Antoine X. An amplitude formulation to reduce the pollution error in the finite element solution of time-harmonic scattering problems. IEEE Transactions on Magnetics 44 6 (2008) 782-785
Geuzaine C., Meys B., Dular P., Henrotte F., and Legros W. A Galerkin projection method for mixed finite elements. IEEE Transactions on Magnetics 35 3 (1999) 1438-1441
Giladi E., and Keller J.B. A hybrid numerical asymptotic method for scattering problems. Journal of Computational Physics 174 (2001) 226-247
Harari I., Slavutin M., and Turkel E. Analytical and numerical studies of a finite element PML for the Helmholtz equation. Journal of Computational Acoustics 8 1 (2000) 121-137
Ihlenburg F. Finite Element Analysis of Acoustic Scattering (1998), Springer, New York
Ihlenburg F., and Babuška I. Finite element solution of the Helmholtz equation with high wave number, I. The h-version of the FEM. Computers and Mathematics with Applications 30 9 (1995) 9-37
Ihlenburg F., and Babuška I. Finite element solution of the Helmholtz equation with high wave number. II. The h - p version of the FEM. SIAM Journal on Numerical Analysis 34 1 (1997) 315-358
Keller J.B., and Lewis R.M. Asymptotic methods for partial differential equations: the reduced wave equation and Maxwell's equations. Surveys in Applied Mathematics vol. 1 (1995), Plenum Press, New York pp. 1-82
Kriegsmann G.A., Taflove A., and Umashankar K.R. A new formulation of electromagnetic wave scattering using the on-surface radiation condition method. IEEE Transactions on Antennas and Propagation 35 (1987) 153-161
Laghrouche O., and Bettess P. Short wave modelling using special finite elements. Journal of Computational Acoustics 8 1 (2000) 189-210
Levy M. Parabolic Equation Methods for Electromagnetic Wave Propagation. IEE Electromagnetic Waves Series vol. 45 (2000), Institution of Electrical Engineers (IEE), London
Lu Y.Y. Some techniques for computing wave propagation in optical waveguides. Communications in Computational Physics 1 6 (2006) 1056-1075
Milinazzo F.A., Zala C.A., and Brooke G.H. Rational square-root approximations for parabolic equation algorithms. Journal of the Acoustical Society of America 101 2 (1997) 760-766
Saad Y. Iterative Methods for Sparse Linear Systems (1996), PWS Pub. Co., Boston
Babuška I.M., and Sauter S.A. Is the pollution effect of the FEM avoidable for the helmholtz equation considering high wave numbers?. SIAM Review 42 3 (2000) 451-484
Taylor M. Pseudodifferential Operators (1981), Princeton University Press, Princeton, NJ
Thompson L.L. A review of finite element methods for time-harmonic acoustics. Journal of the Acoustical Society of America 119 3 (2006) 1315-1330
Turkel E., Farhat C., and Hetmaniuk U. Improved accuracy for the helmholtz equation in unbounded domains. International Journal for Numerical Methods in Engineering 59 (2004) 1963-1988
