Results 261 to 270 of about 72,240 (296)

Excitation of leaky modes on multilayer stripline

1996 IEEE MTT-S International Microwave Symposium Digest, 2002
The practical issue of excitation of leaky modes on multilayered stripline structures is analyzed. The excitation is studied by calculating the current on the strip conductor due to a source. The GPOF method is used to investigate the physical meaning of the leaky modes.
C. Di Nallo, F. Mesa, D.R. Jackson
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Tunnelling leaky modes on optical waveguides

Optics Communications, 1974
Abstract The lossless dielectric waveguide of circular cross section with an index of refraction greater than its surround supports trapped modes in addition to two subclasses of leaky modes: refracting and tunnelling modes. Refracting modes leak because their fields are formed by waves that undergo refraction at the core-cladding interface ...
Allan W. Snyder, John D. Love
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On the Excitation of Leaky Modes in Cylindrical Loops

Solar Physics, 2007
The role of leaky waves in the coronal loop oscillations observed by TRACE is not yet clearly understood. In this work, the excitation of fast waves in solar coronal loops modelled as dense plasma cylindrical tubes in a uniform straight magnetic field is investigated.
J. Terradas, J. Andries, M. Goossens
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Leaky bound modes in planar waveguides

1999 IEEE LEOS Annual Meeting Conference Proceedings. LEOS'99. 12th Annual Meeting. IEEE Lasers and Electro-Optics Society 1999 Annual Meeting (Cat. No.99CH37009), 2003
We propose a new and efficient method of analyzing leaky waveguides where we graphically find the extreme reflectivity of a light ray incident from one side of the outermost cladding toward the leaky waveguide. Such a field, called the leaky bound mode by us, is briefly described and numerical examples are presented.
null Shiao-Min Tseng, null Chung-I Lin
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On the leaky modes of open microstrip lines

Microwave and Optical Technology Letters, 1989
AbstractDispersion characteristics and modal currents of an open microstrip line are computed using the mixed‐potential electric field integral equation. Particular attention is given to the correct determination of the radiating, leaky‐wave modes.
Krzysztof A. Michalski, Dalian Zheng
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Leaky modes in graded index optical fibers

Applied Optics, 1976
Leaky mode attenuation coefficients for graded index optical fibers are derived using the WKB approximation. For the case of a parabolic index profile, the attenuation coefficients for explicitly evaluated and used to calculate the leaky mode contribution to near field and attenuation measurements.
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Leaky Modes in Nonlinear Optical Resonators

2000
The aim of this lecture is to show that leaky modes provide a convenient mean for the study of nonlinear optical interactions in “open” resonators such as Fabry-Perot’s, multilayer structures, prism or grating couplers, etc.
R. Reinisch, G. Vitrant, E. Popov, M. Nevière   +3 more
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On resonance widths of leaky Lamb modes

The Journal of the Acoustical Society of America, 1995
For an elastic plate immersed in a lossless fluid, it is known that resonances of leaky Lamb modes contribute to the transmission coefficient in a manner dependent on the resonance widths. Based on numerical solutions in the complex wave-number field, an examination of such resonance widths is presented here.
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What Is a Quantized Mode of a Leaky Cavity?

2001
Quantum optics conventionally represents the electromagnetic radiation in a leaky cavity by a normal-modes expansion, as if the cavity were closed and perfect, with the leakage being described by coupling these modes to a reservoir. This phenomenological approach is only a good approximation for stable resonators with very large quality factors.
S.M. Dutra, G. Nienhuis
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Leaky Quasi Modes in Curved Plates

AIP Conference Proceedings, 2005
Cylindrical engineering structures can sometimes be inspected effectively using a circumferential guided wave technique to cover the full circumference from a single location. Many of these structures are embedded so that energy leaks into the surrounding material as the waves propagate around the structure.
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