Radiation and Optics: An Introduction to the Classical TheoryProblems after each chapter |
Common terms and phrases
amplitude angle antenna applied approximation array atom average axes axis Babinet's principle calculation Chap circular classical complex number component Consider constant coordinates curl curve defined density diffracting screen diffraction pattern dipole direction distance edge effect electric field electromagnetic electron ellipse energy equal example factor formula Fourier Fraunhofer diffraction frequency fringes function geometrical given gives grating hence incident wave involved irradiance Kirchhoff integral length light linear magnetic field magnitude maximum Maxwell equations medium microscopic monochromatic motion normal observing screen obtained optical oscillation particle perpendicular plane wave plate positive Poynting vector principal maxima Prob problem propagation radiation radius rectangular aperture refractive refractive index relation resonant result scalar scattering shown in Fig single-aperture pattern sinusoidal slit space spectrum Stokes parameters surface surface integral theorem tion uo(P velocity wave vector wavelength width zero