Spherical wave expansion of the time domain free-space dyadic green's function

Download

082506.pdf

Date

1999

Author

Azizoğlu, Süha Alp

Metadata

Show full item record

Item Usage Stats

92
views

0
downloads

URI

https://hdl.handle.net/11511/2386

Collections

Graduate School of Natural and Applied Sciences, Thesis

Suggestions

OpenMETU
Core

Spherical wave expansion of the time-domain free-space Dyadic Green's function Azizoglu, SA; Koç, Seyit Sencer; Buyukdura, OM (Institute of Electrical and Electronics Engineers (IEEE), 2004-03-01) The importance of expanding Green's functions, particularly free-space Green's functions in terms of orthogonal wave functions is practically self-evident when frequency domain scattering problems are of interest. With the relatively recent and widespread interest in time-domain scattering problems, similar expansions of Green's functions are expected to be useful in the time-domain. In this paper, an expression, expanded in terms of orthogonal spherical vector wave functions, for the time-domain free-space...
Spherical harmonic-based random fields based on real particle 3D data: Improved numerical algorithm and quantitative comparison to real particles Liu, X.; Garboczi, E. J.; Grigoriu, M.; Lu, Y.; Erdoğan, Sinan Turhan (2011-02-15) The shape of particles often plays an important role in how they are used and in the properties of composite systems in which they are incorporated. When building models of systems that include real particles, it is often of interest to generate new, virtual particles whose 3D shape statistics are based on the 3D shape statistics of a collection of real particles. A previous paper showed mathematically how this can be carried out, but only had a small set of real particle shape data to use and only made a l...
Spherically symmetric solutions of Einstein plus non-polynomial gravities Deser, S.; Sarıoğlu, Bahtiyar Özgür; Tekin, Bayram (Springer Science and Business Media LLC, 2008-01-01) We obtain the static spherically symmetric solutions of a class of gravitational models whose additions to the General Relativity (GR) action forbid Ricci-flat, in particular, Schwarzschild geometries. These theories are selected to maintain the (first) derivative order of the Einstein equations in Schwarzschild gauge. Generically, the solutions exhibit both horizons and a singularity at the origin, except for one model that forbids spherical symmetry altogether. Extensions to arbitrary dimension with a cos...
Spherical harmonics based acoustic scene analysis for object-based audio Çöteli, Mert Burkay; Hacıhabiboğlu, Hüseyin; Department of Information Systems (2021-2-19) Object-based audio relies on elemental audio signals from individual sound sources and their associated metadata to be reconstructed at the listener side. While defining audio objects in a production setting is straightforward, it is not trivial to extract audio objects from more realistic recording scenarios such as concerts. Thus, existing object-based audio standards also define scene-based formats alongside objectbased representations that provide immersive audio, but without the flexibility provided by...
Nonlinear Optical Properties of Low Dimensional Quantum Systems Unal, V. Ustoglu; Tomak, Mehmet; Aksahin, E.; Zorlu, O. (2022-01-01) Low dimensional semiconductor structures such as quantum wells, wires and dots demonstrate interesting nonlinear optical properties. The low dimensionality modulates the electronic structure leading to distinct nonlinear optical properties as compared to their bulk counterparts. In this review, we concentrate more on quantum wells and dots althoughwealso consider someworks on quantum wires. The nonlinear optical parameters such as the second and the third order susceptibilities are specifically discussed.

Citation Formats

S. A. Azizoğlu, “Spherical wave expansion of the time domain free-space dyadic green’s function,” Middle East Technical University, 1999.