2 Tutorial examples of QW-3D application
2.2 S-parameters extraction problems
2.2.1 Waveguide-to-coax transition
2.2.2 Advanced S-parameter problems for waveguide-to-coax example
2.2.4 First insight template generation - low-order waveguide modes
2.2.5 Septum polariser as a six-port with higher-order waveguide modes
2.2.6 Monitoring of mode template generation in automatic mode
2.2.7 Dielectric waveguide coupler
2.2.8 Modal templates in inhomogeneous guides
2.2.10 Multi-conductor transmission lines
2.2.11 Salisbury screen absorber
2.3.1 Rectangular waveguide horn in open space
2.3.2 NTF transform in open space and with infinite ground plane
2.3.5 Balanced antipodal Vivaldi antenna
2.3.6 Near-to-Far field transformation in non-air and lossy regions
2.3.8 Near-to-Far transformation at the fixed angle
2.3.9 Near-to-Far transformation at the fixed angle with symmetry
2.3.10 Radiation patterns for circular polarisation
2.4 Microwave heating problems
2.4.1 Heating in circular waveguide with linear polarisation
2.4.2 Heating in circular waveguide with circular polarisation
2.4.3 Heating in circular waveguide with whispering gallery modes
2.4.4 The exploding egg effect
2.4.5 Heating and thawing a beefburger in a cavity oven
2.4.6 Application of Frequency Domain Monitors (FDM) for microwave heating
2.4.7 Application of ExH Time Integral for microwave heating
2.5.2 Rectangular waveguide filter
2.6 Plane wave excitation and scattering
2.6.1 Plane wave without the scatterer
2.6.2 Plane wave with the scatterer
2.6.3 More plane wave examples – application of vector displays of fields
2.6.4 Illumination with Gaussian beams
2.6.5 Metamaterial prism illumination with Gaussian beam
2.6.6 Circular polarisation in radiation pattern
2.7 Watching fields directly in time-domain
2.7.1 A basic time domain reflectometry (TDR) example
2.8.1 A structure of UDO libraries
2.8.2 Using standard library UDOs to create more complicated UDOs
2.9 Application of biphased objects
2.9.1 A circular waveguide junction
2.9.2 Radiating horn with lens
2.10.1 Basic example of application of DXF Converter
2.10.2 Basic example of application of SAT Filter
2.11 Manual operation of QW-Editor
2.11.1 A simple waveguide example
2.11.2 Two dipoles in free space excited in phase
2.11.3 Two dipoles in free space excited out of phase
2.11.4 One dipole near electric wall
2.11.5 One dipole near magnetic wall
2.12 Boolean operations on elements and objects
2.12.2 When we do not need Join operations
2.12.3 Join operations on combined elements
2.13 Field integration along a user-defined line
2.13.1 A parallel-plate transmission line
2.13.2 Contours E, H and combination of them
2.13.3 Joint use of contours with frequency-domain monitoring of fields and source signal
2.14 Dispersive and anisotropic media examples
2.14.1 A brief description of basic examples for dispersive media analysis in QW-3D
2.14.2 Metamaterial prism illumination with Gaussian beam
2.15 QW-OptimiserPlus examples
2.15.1 Optimisation of a waveguide-to-coax transition
2.15.2 Optimisation of a waveguide horn
2.15.3 Retromodelling with joint use of QW-OptimiserPlus and QProny
2.16.1 Application of frequency domain monitor (FDM) for the dielectric resonator
2.17 Examples of periodic structures
2.17.3 Eigenmodes in photonic crystals (PhC)
2.18 Examples of photonic crystal applications
2.18.1 2D photonic crystal waveguide
2.18.2 2D photonic crystal waveguide bend
2.18.3 2D photonic crystal lens
2.19 Application of QW-3D with external optimisers
2.19.1 Shape optimisation using Matlab - rwgconv example
2.20.1 1D propagation in the material with Kerr and Raman nonlinearities
2.20.2 2D propagation in the material with Kerr and Raman nonlinearities
2.21 3D Viewer of QW-3D examples
2.21.2 Viewing surface currents in an example project
2.21.3 Viewing fields in a given medium currents in an example project