4,840 research outputs found
Comparing a current-carrying circular wire with polygons of equal perimeter; Magnetic field versus magnetic flux
We compare the magnetic field at the center of and the self-magnetic flux
through a current-carrying circular loop, with those obtained for
current-carrying polygons with the same perimeter. As the magnetic field
diverges at the position of the wires, we compare the self-fluxes utilizing
several regularization procedures. The calculation is best performed utilizing
the vector potential, thus highlighting its usefulness in practical
applications. Our analysis answers some of the intuition challenges students
face when they encounter a related simple textbook example. These results can
be applied directly to the determination of mutual inductances in a variety of
situations.Comment: 9 pages, 4 figure
Full-vector analysis of a realistic photonic crystal fiber
We analyze the guiding problem in a realistic photonic crystal fiber using a
novel full-vector modal technique, a biorthogonal modal method based on the
nonselfadjoint character of the electromagnetic propagation in a fiber.
Dispersion curves of guided modes for different fiber structural parameters are
calculated along with the 2D transverse intensity distribution of the
fundamental mode. Our results match those achieved in recent experiments, where
the feasibility of this type of fiber was shown.Comment: 3 figures, submitted to Optics Letter
Tetraquark bound states in a constituent quark model and the nature of the a_0(980) and f_0(980)
In this work we study tetraquark bound states in the framework of the
constituent quark model of Ref. [2], which has been used for the description of
non-strange two- and three-baryon systems and later on applied to the hadron
spectra.Comment: Contribution to the MESON 2002 Workshop. Krakow 24-28 May 200
Fractal Photonic Crystal Waveguides
We propose a new class of one-dimensional (1D) photonic waveguides: the
fractal photonic crystal waveguides (FPCWs). These structures are photonic
crystal waveguides (PCWs) etched with fratal distribution of grooves such as
Cantor bars. The transmission properties of the FPCWs are investigated and
compared with those of the conventional 1D PCWs. It is shown that the FPCW
transmission spectrum has self-similarity properties associated with the
fractal distribution of grooves. Furthermore, FPCWs exhibit sharp localized
transmissions peaks that are approximately equidistant inside the photonic band
gap
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