Nonlinear Microwave Signal Processing: Towards a New Range of Devices

I: Classical and Novel Nonlinear Effects, Applications in Different Physcial Systems. 1. Notes on the Problem of Magnetization Reversal R. Arias, et al. 2. An Overview of Nonlinear Microwave and Millimeter Wave Generation in Magnetic, Acoustic and Electromagnetic Distributed Nonlinear Physical Systems M. Dragoman, D. Dragoman. 3. Inhomogeneous Internal Field Distribution in Planar Microwave Ferrite Devices M. Parda-Horvath, Guobao Zheng. 4. Design of Nonlinear Transmission Lines: GaAs and Magnetic Film Devices R. Marcelli, et al. 5. Nonlinear Dynamics of Optical Solitons S. Wabnitz. II: Spin Wave Instabilities. 6. Theory of Spin-Wave Interactions in Heisenberg Ferromagnetic Thin Films M.G. Cottam, N.J. Zhu. 7. Kinetic Instability and Bose Condensation of Magnons - The Sources of Controlled Microwave Emission from Magnetic Crystals G.A. Melkov, A.Yu. Taranenko. 8. Exchange Spin Waves in Nonuniform Films of Yttrium Ion Garnet A.G. Temiryazev, et al. 9. Parametric Instability of Spin Waves in Ferromagnets under a Spatially Localized Longitudinal Magnetic Pump Field Yu.V. Gulyaev, et al. 10. Spatial Nonuniformity and Spin Wave Turbulence in Antiferromagnet A.I. Smirnov. III: Solitons and Chaos. 11. Microwave Solitons in Magnetic Media: A Review of Fundamental Properties A.D. Boardman, et al. 12. Soliton-like Packets of Parametrically Coupled Spin Waves A.F. Popkov, et al. 13. Macroscopic Quantum Tunneling of Solitons in Ultrathin Films A.K. Zvezdin, V.V. Dobrovitski. 14. Controlling Chaos in Thin YIG Films at Microwave Frequencies D.W. Peterman, P.E. Wigen. 15. Suppressing and Controlling Chaos in Spin-Wave Instabilities T. Bernard, et al. IV: Magneto-Optic Interaction: Nonlinear Effects and Devices. 16. Applications of Magnetic Garnet Films in Optical Communication H. Dotsch, et al. 17. Interactions between Optical Guided Modes and Nonlinear Magnetostatic Waves D.D. Stancil, A. Prabhakar. 18. Integrated Magnetooptic Devices with Applications to RF Signal Processing and Communications C.S. Tsai.