Electromagnetic theory and wave propagation/ S N Ghosh.

Maxwell's Field Equations and Practical Demonstrations of Electromagnetic WavesMaxwell's Field EquationsField Equations for Different Field Configurations and MediaMaxwell's Field Equestions and Conservation of ChargeWave EquationsMaxwell's Field Equations with Sinusoidal Time VariationsTransverse Nature of Electromagnetic WavesPractical Demonstrations of Electromagnetic WavesPropagations of E.M. Waves through Insulator and ConductorCharacteristics of E.M. Wave PropagationPropagation through Transmission Lines and Different MediaComparison of E.M. Wave Propagations through Dielectrics, Conductors and Transmission LinesE.M. Energy Flow and Boundary ConditionsEnergy Integral-Power Flow and Poynting VectorBoundary ConditionsPower for Plane WavesReflection and Refraction at Oblique IncidenceLossless Dielectric Medium - Snell's LawFresnel's EquationsWave Penetration in Conducting Medium - Skin EffectSolutions of Electromagnetic Wave EquationsScalar and Vector PotentialsIntroductory Remark for Obtaining Solution of E.M. WavesWave Equation in Rectangular Co-ordinate SystemWave Equation in Cylindrical Co-ordinate SystemWave Equation in Spherical Co-ordinate SystemUnits of Electromagnetic QuantitiesFive Systems of Units for E.M. QuantitiesConversion TablesWaveguides, Fibre Optics and Optical CommunicationIntroductionRectangular GuideCircular WaveguideRectangular ResonatorFibre Optics and Optical CommunicationPhysical Structure and Classification of Optical FibresPhysical Principle of Optical WaveguideSignal Distortion in Optical FibresGround Wave PropagationIntroductionGround Wave PropagationEffect of Tropospheric RefractionEffective Earth's RadiusPropagation of LF, VLF and ELF WavesIntroductionProposed TheoriesELF Wave PropagationPropagation through TroposphereCharacteristics of TroposphereForms of Atmospheric RefractionPropagation of UHF and Microwaves under Super RefractionVHF (30-300 MHz) and Microwave Propagation by Tropospheric ScatteringExpression of EchopowerFading in Tropospheric ScatterIonospheric Work up to World War II and Rocket and Satellite-Borne Ionospheric ExperimentsIntroductionPropagation of E.M. Waves in a Magnetoionic Medium - Appleton-Hartree FormulaPropagation along any Direction q, Collision ConsideredVariation of m2 with X for Different Values of ZPolarisationConditions of ReflectionRay Theory - Propagation through IonospherePropagation at Low FrequenciesScatteringRecent AdvancementsRocket and Satellite-Borne Ionospheric ExperimentsComparison of Techniques used for Exploration of IonosphereMeasurements of Ionospheric Parameters by Rockets and SatellitesTopside IonosphereEquatorial IonosphereCharacteristics of Equatorial IonosphereIncoherent Scatter Radar and IonosphereIntroductionTheoryExperimental ArrangementsMeasurement of Ionospheric Parameters by Incoherent Scatter RadarMST Radar and Middle Atmospheric DynamicsTrapped Radiation in a Dipole Magnetic Field - van Allen Radiation BeltMotion of a Charged Particle in a Magnetic FieldBouncing Motion between Mirror PointsDrift across the Field LineIntegral Invariant of Length of Field-Line between the Mirror PointsDiscovery of van Allen Radiation BeltsWhistler PropagationWhistler PhenomenonClassification of WhistlersStorey's Observations of WhistlersTheory of WhistlersDucted Mode of PropagationMHD Waves and MHD GeneratorsMHD WavesMHD Wave EquationsExperimental Verification of MHD Wave TheoryMHD GeneratorsMHD Power GeneratorSatellite CommunicationEarly HistoryClassifications of Satellite CommunicationTransmisison CharacteristicsGround, Spacecraft and Launch SystemsIndian Communication SatellitesPropagation of Microwaves and Millimeter WavesIntroductionMolecular Absorption by Atmospheric Gases in Mw and mm Wave RegionsMolecular Absorption of Mw and mm Waves by Planetary AtmospheresAbsorption and Scattering by Precipitated ParticlesWater Vapour Absorption of mm WavesAttenuation by CloudAttenuation by Fog, Haze, Snow and HailAttenuation in Sand and DustAttenuation in AerosolsRelativistic ElectrodynamicsIntroductionConcept of 4-VectorCovariance of Electrodynamic EquationsMaxwell Equations in 4-VectorTransformation of Electromagnetic FieldsThe 4-Vector Form of Lorentz EquationsLagrangian and Hamiltonian Force Equations for a Relativistic Charged ParticleAppendicesElectromagnetic Sources and DetectorsPropagation Characteristics of E.M. WavesRemote SensingIndexNote: Each chapter, with the exception of Chapter 17, also contains a set of problems