Welcome to openEMS’s documentation!

Contents:

• Introduction
  • Features
  • Citation
• Install
  • Requirements
    • Debian/Ubuntu
    • Fedora
    • FreeBSD
    • macOS
    • Windows
  • Clone, Build and Install
    • Clone
    • Build and Install
    • openEMS search path
    • Setup the Octave/Matlab or Python Interfaces
    • Check Installation
    • Update Instruction
  • Installing Ready-Made Packages
    • Windows
      • Setup the Octave/Matlab or Python Interfaces
      • Check Installation
    • FreeBSD
      • Setup the Octave/Matlab or Python Interfaces
      • Check Installation
    • macOS
      • Setup Octave/Matlab Interfaces
      • Setup Python Interfaces
      • Check Installation
        • Troubleshooting
        • Updating
  • Manual Build and Install
    • Install Dependencies
    • Install Basic Programs
    • Install Python bindings (optional)
    • Install AppCSXCAD GUI (optional)
    • openEMS search path
      • Setup the Octave/Matlab or Python Interfaces
    • Troubleshooting
      • FreeBSD
  • Check Installation
    • Prerequisites
    • openEMS executable
      • Linux
      • Windows
    • AppCSXCAD executable
      • Linux
      • Windows
    • Matlab/Octave Interface
    • Python interface
• Concepts
  • CSXCAD
    • Initialization
    • Coordinate Systems
    • Saving
    • Import & Export
    • Models and Simulations Reuse
      • Matlab/Octave
      • Python
    • Modeling via a GUI?
  • Properties
    • Metal
      • Example
    • Thin Conducting Sheet
      • Example
    • General Material
      • Example
    • Lumped Element
      • Example
    • Dispersive Materials
    • Probes and Dumps
  • Primitives
    • Shapes
      • Box
        • Matlab/Octave
        • Python
        • Examples
      • Sphere
        • Matlab/Octave
        • Python
        • Example
      • Spherical Shell
        • Matlab/Octave
        • Python
        • Example
      • Cylinder
        • Matlab/Octave
        • Python
        • Example
      • Cylindrical Shell
        • Matlab/Octave
        • Python
        • Example
      • Curve
        • Matlab/Octave
        • Python
        • Example
      • Wire
        • Matlab/Octave
        • Python
        • Example
      • Polygon
        • Matlab/Octave
        • Python
        • Example
      • Extruded Polygon
        • Matlab/Octave
        • Python
        • Example
      • Rotational Polygon
        • Matlab/Octave
        • Python
        • Example
      • Polyhedron
        • Verteces and Faces
        • Matlab/Octave
        • Python
        • Example
    • Coordinate Systems
      • Example
    • Transformation
      • Matlab/Octave
      • Python
      • Example
    • Priority
      • Example: Metal Sheet With Cylindrical Holes
    • Complex Examples
      • Mickey
      • Sphere Aggregation
  • Mesh
    • Create a Mesh
      • Obtain the Mesh Object
      • Decide the Upper Frequency and Mesh Resolution
    • General Requirements
    • Courant-Friedrichs-Lewy (CFL) Criterion
  • Boundary Conditions
    • Set Boundary Conditions
    • Reflecting (Dirichlet) Boundary Conditions
    • Absorbing Boundary Conditions (ABC)
  • Ports
    • Types
      • Usage
    • Selection
    • Implementation
    • Post-Processing
      • Attributes
      • Usage
  • Excitation Sources
    • Standard Excitation
      • Matlab/Octave
      • Python
      • Example
    • Total Field / Scattered Field Excitation
      • Matlab/Octave
      • Python
      • Example
  • Signal Waveforms
    • Sinusoid Signal
      • Usage
    • Dirac Impulse
      • Usage
    • Heaviside Step
      • Usage
    • Gaussian Pulse
      • Usage
    • Custom Signal
      • Usage
      • Example: Step Excitation with Finite Rise Time (Gaussian filter)
    • Bibliography
  • Field Dump
    • Usage
    • Example
  • Dispersive Materials
    • Complex Permittivity and Permeability
      • Debye Model
        • Usage
        • Calculation
      • Drude Model
        • Usage
        • Calculation
      • Lorentz Model
        • Usage
        • Calculation
    • Math Notes
      • Debye Model
      • Drude Model
      • Lorentz Model
      • Relation to Other Formulations
        • First-Order Lorentz Model
        • First-Order Drude Model
        • First-Order Drude Model w/o Asymptotic and Conductivity Terms
        • Oscillator Strength Term Definitions
        • Relaxation Time Definitions
        • Asymptotic Term Definitions
        • Sign Conventions
    • Bibliography
• Tutorials
  • First Lessons For Circuit Designers
    • Start from the Basics
    • Workflow of FDTD
    • Parallel-Plate Capacitor and Waveguide
      • This tutorial covers
      • Problem
      • Create Conductors
      • Requirements for the Mesh
        • General Requirements
        • Courant-Friedrichs-Lewy (CFL) Criterion
      • Create a Mesh
        • Obtain the Mesh Object
        • Decide the Upper Frequency and Mesh Resolution
        • A Simple But Flawed Mesh
        • A Practical Mesh
      • Optional: Create A Field Dump Box
      • Purpose of Ports
        • Select the Right Port Type
        • Test Fixture as 1-Port or 2-Port Network
      • Create Ports
      • Create Excitation
      • Specify the Boundary Conditions
        • Reflecting (Dirichlet) Boundary Conditions
        • Absorbing Boundary Conditions (ABC)
        • Set Boundary Conditions
      • Start Simulation
      • Code Checkpoint 1
        • Our Existing Code So Far
        • Code Refactoring
      • Run Simulation
        • Expected Simulator Output
        • Convergence and Divergence (Blow-up)
      • Built-In Post-Processing
        • Port Attribute References
        • Introduction to S-parameters
        • Calculate S-parameters
        • Plot S-parameters via matplotlib
        • Plot Z-parameters (Impedances) via matplotlib
        • Code Checkpoint 2: Eliminate Repetitions in matplotlib Code
        • Plot Time-Domain Waveforms via matplotlib
        • Export S-parameters to Touchstone
      • Code Checkpoint 3
      • Third-Party Post-Processing
        • S-parameters Analysis via scikit-rf
        • Transient Analysis via SignalIntegrity
        • S-Parameters Analysis via Qucs-S
        • Field Dumps Analysis via ParaView
      • Experimental Validation and Discussion
        • Motivation
        • Experiment
        • Results
        • Impedance Transformation
      • Troubleshoot
        • Notes for Wayland Users
        • Warning: Unused primitive (type: Box) detected in property: plate!
        • Warning: Unused primitive (type: Box) detected in property: port_excite_1!
        • CalcVoltageIntegral: Error, only a 1D/line integration is allowed
        • No Qucsator in Qucs-S
      • Bibliography
  • Introductional Tutorials
    • Rectangular Waveguide
      • Introduction
      • Python Script
      • Images
    • Metal Sphere Radar Cross Section
      • Introduction
      • Python Script
      • Images
  • Micro Wave Tutorials
    • Microstrip Notch Filter
      • Introduction
      • Python Script
      • Images
    • CRLH Parameter Extraction
      • Introduction
      • Python Script
      • Images
  • Antennas
    • Simple Patch Antenna
      • Introduction
      • Python Script
      • Images
    • Helical Antenna
      • Introduction
      • Python Script
      • Images
    • Bent Patch Antenna
      • Introduction
      • Python Script
      • Images
• Python Interface
  • Install
    • Module requirements
    • Linux
      • Build Modules Automatically
      • Build Modules From Source Manually
    • Windows
      • Install Pre-build Modules
      • Build Modules From Source
      • Setup
  • CSXCAD Python Interface
    • CSXCAD
    • CSProperties
      • Notes
      • Examples
      • CSProperties (Base Class)
      • CSPropMaterial
      • CSPropLumpedElement
      • CSPropMetal
      • CSPropConductingSheet
      • CSPropExcitation
      • CSPropProbeBox
      • CSPropDumpBox
    • CSPrimitives
      • Notes
      • Examples
      • CSPrimitives (Base Class)
      • CSPrimPoint
      • CSPrimBox
      • CSPrimCylinder
      • CSPrimCylindricalShell
      • CSPrimSphere
      • CSPrimSphericalShell
      • CSPrimPolygon
      • CSPrimLinPoly
      • CSPrimRotPoly
      • CSPrimCurve
      • CSPrimWire
      • CSPrimPolyhedron
      • CSPrimPolyhedronReader
    • CSTransform
    • CSRectGrid
    • Mesh
      • SmoothMeshLines
    • Utilities
  • openEMS Python Interface
    • openEMS
    • Ports
      • Port (Base Class)
      • Lumped Port
      • MSL Port
      • Waveguide Port
      • Rect Waveguide Port
    • NF2FF
      • NF2FF
      • NF2FF Results
• Octave/Matlab Interface
  • Install
    • Requirements
    • Setup
      • Linux
      • Windows
  • CSXCAD API
    • Geometry
      • AddBox
      • AddCurve
      • AddCylinder
      • AddCylindricalShell
      • AddLinPoly
      • AddPoint
      • AddPolygon
      • AddPolyhedron
      • AddRotPoly
      • AddSphere
      • AddSphericalShell
      • AddWire
    • Materials
      • AddConductingSheet
      • AddMetal
      • AddMaterial
      • AddLumpedElement
      • AddDebyeMaterial
      • AddDiscMaterial
      • AddLorentzMaterial
      • CalcDebyeMaterial
      • CalcDrudeMaterial
      • CalcLorentzMaterial
      • SetBackgroundMaterial
      • SetMaterialProperty
      • SetMaterialWeight
      • Convert_VF_DiscMaterial
      • CreateDiscMaterial
    • Mesh
      • AnalyseMesh
      • AutoSmoothMeshLines
      • CheckMesh
      • DefineRectGrid
      • DetectEdges
      • RecursiveSmoothMesh
      • SmoothMesh
      • SmoothMeshLines
      • SmoothMeshLines2
    • Excitations
      • AddExcitation
      • AddPlaneWaveExcite
      • SetExcitationWeight
    • Probes and Field Dump
      • AddDump
      • AddProbe
    • Import & Export
      • ImportPLY
      • ImportSTL
      • export_empire
      • export_excellon
      • export_gerber
      • export_povray
    • Misc
      • InitCSX
      • AddPropAttribute
      • CSXGeomPlot
      • DirChar2Int
      • isOctave
      • searchBinary
      • struct_2_xml
  • openEMS API
    • Excitations
      • SetCustomExcite
      • SetDiracExcite
      • SetGaussExcite
      • SetSinusExcite
      • SetStepExcite
    • Ports
      • AddCPWPort
      • AddCircWaveGuidePort
      • AddCoaxialPort
      • AddCurvePort
      • AddLumpedPort
      • AddMRStub
      • AddMSLPort
      • AddRectWaveGuidePort
      • AddStripLinePort
      • AddWaveGuidePort
    • Field Dump
      • Dump2VTK
      • DumpFF2VTK
    • Simulation
      • setup
      • InitFDTD
      • InitCylindricalFDTD
      • InitQueue
      • RunOpenEMS
      • RunOpenEMS_MPI
      • RunOpenEMS_Parallel
      • SetupMPI
      • SetBoundaryCond
      • AddPML
      • WriteOpenEMS
    • Post-processing
      • calcLumpedPort
      • calcPort
      • calcTLPort
      • calcWGPort
      • calc_ypar
      • plotFF3D
      • plotFFdB
      • plotRefl
      • polarFF
      • PlotHDF5FieldData
      • GetField_Interpolation
      • GetField_Range
      • GetField_SubSampling
      • GetField_TD2FD
      • ReadHDF5Attribute
      • ReadHDF5Dump
      • ReadHDF5FieldData
      • ReadHDF5Mesh
      • ReadUI
      • WriteHDF5
      • ConvertHDF5_VTK
      • AR_estimate
      • DFT_time2freq
      • DelayFidelity
      • FFT_time2freq
      • harminv
    • Optimization
      • optimize
      • optimizer_asco_sim
    • Near-Field to Far-Field Transform
      • CreateNF2FFBox
      • CalcNF2FF
      • AnalyzeNF2FF
    • Misc
      • Add2Queue
      • CheckQueue
      • FindFreeSSH
      • FinishQueue
      • ResultsQueue
      • physical_constants
      • queue_addProcess
      • queue_checkProcess
      • queue_delProcess
• Learn More
  • Documentation and Q&A
  • FDTD
  • openEMS
• Publications
  • 2023
  • 2022
  • 2020
  • 2019
  • 2012
  • 2011

Indices and tables

• Index

• Module Index

• Search Page