ResonanceJan Awrejcewicz Resonance is a common phenomenon, which is observed both in nature and in numerous devices and structures. It occurs in literally all types of vibrations. To mention just a few examples, acoustic, mechanical, or electromagnetic resonance can be distinguished. In the present book, 12 chapters dealing with different aspects of resonance phenomena have been presented. |
Contents
Principles Modeling | 13 |
Stochastic Resonance and Related Topics | 35 |
Chaotic Stochastic Resonance and AntiResonance Phenomena | 71 |
Optimization of DoubleWell Bistable Stochastic Resonance | 91 |
Resonances in LeftHanded Waves Developed in Nonlinear | 111 |
Introduction to Parametric and Autoparametric | 131 |
Resonance Effect of Nanofibrous Membrane for Sound | 153 |
Modal Analysis of Surface Plasmon Resonance Sensor Coupled | 169 |
Fano Resonance in HighPermittivity Objects | 189 |
LaserInduced Fano Resonance in Condensed | 209 |
Resonances and Exceptional Broadcasting Conditions | 233 |
Common terms and phrases
acoustic amplitude analytical application basepoint excited bistable cavity cavity resonator chapter coefficient cognitive radio configuration core-shell corresponding coupling CSNps curve damping defined detection dipole dynamics effect electrical electromagnetic electron envelope pulse equation exciton external Fano resonances Floquet function high-permittivity hyperfine structure IEEE interaction Journal laser layer linear LO-phonon magnetic field magneto-elastic magnetostrictive effects mechanical metamaterials method Mie theory mode mode-locking nanofibrous membrane nanoparticles noise nonlinear CRLH line optical optimal oscillator parameters perforated plate periodic permittivity phenomenon photon sidebands photonic crystal Physical Review polarization potential processes resonant frequency respectively response scattering SDoF second harmonic second harmonic wave shown in Figure signal simulation soliton solution sound absorption SPCE SPCE sensor spectral spectrum sensing spin spring stochastic resonance structure surface plasmon resonance theory values vector vibration voltage