The Resource The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book)
The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book)
Resource Information
The item The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Sydney Jones Library, University of Liverpool.This item is available to borrow from 1 library branch.
Resource Information
The item The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Sydney Jones Library, University of Liverpool.
This item is available to borrow from 1 library branch.
 Summary
 This book introduces the powerful FiniteDifference TimeDomain method to students and interested researchers and readers. An effective introduction is accomplished using a stepbystep process that builds competence and confidence in developing complete working codes for the design and analysis of various antennas and microwave devices
 Language
 eng
 Edition
 Second edition.
 Extent
 1 online resource.
 Contents

 List of figures; List of tables; Preface; Acknowledgements; 1. Introduction to FDTD; 1.1. The finitedifference timedomain method basic equations; 1.2. Approximation of derivatives by finite differences; 1.3. FDTD updating equations for threedimensional problems; 1.4. FDTD updating equations for twodimensional problems; 1.5. FDTD updating equations for onedimensional problems; 1.6. Exercises; 2. Numerical stability and dispersion; 2.1. Numerical stability; 2.2. Numerical dispersion; 2.3. Exercises; 3. Building objects in the Yee grid; 3.1. Definition of objects
 3.2. Material approximations3.3. Subcell averaging schemes for tangential and normal components; 3.4. Defining objects snapped to the Yee grid; 3.5. Creation of the material grid; 3.6. Improved eightsubcell averaging; 3.7. Exercises; 4. Active and passive lumped elements; 4.1. FDTD updating equations for lumped elements; 4.2. Definition, initialization, and simulation of lumped elements; 4.3. Simulation examples; 4.4. Exercises; 5. Source waveforms and time to frequency domain transformation; 5.1. Common source waveforms for FDTD simulations
 5.2. Definition and initialization of source waveforms for FDTD simulations5.3. Transformation from time domain to frequency domain; 5.4. Simulation examples; 5.5. Exercises; 6. SParameters; 6.1. Scattering parameters; 6.2. SParameter calculations; 6.3. Simulation examples; 6.4. Exercises; 7. Perfectly matched layer absorbing boundary; 7.1. Theory of PML; 7.2. PML equations for threedimensional problem space; 7.3. PML loss functions; 7.4. FDTD updating equations for PML and MATLAB implementation; 7.5. Simulation examples; 7.6. Exercises; 8. Advanced PML formulations
 8.1. Formulation of CPML8.2. The CPML algorithm; 8.3. CPML parameter distribution; 8.4. MATLAB implementation of CPML in the threedimensional FDTD method; 8.5. Simulation examples; 8.6. CPML in the twodimensional FDTD method; 8.7. MATLAB implementation of CPML in the twodimensional FDTD method; 8.8. Auxiliary differential equation PML; 8.9. Exercises; 9. Nearfield to farfield transformation; 9.1. Implementation of the surface equivalence theorem; 9.2. Frequency domain nearfield to farfield transformation; 9.3. MATLAB implementation of nearfield to farfield transformation
 9.4. Simulation examples9.5. Exercises; 10. Thinwire modeling; 10.1. Thinwire formulation; 10.2. MATLAB implementation of the thinwire formulation; 10.3. Simulation examples; 10.4. An improved thinwire model; 10.5. MATLAB implementation of the improved thinwire formulation; 10.6. Simulation example; 10.7. Exercises; 11. Scattered field formulation; 11.1. Scattered field basic equations; 11.2. The scattered field updating equations; 11.3. Expressions for the incident plane waves; 11.4. MATLAB implementation of the scattered field formulation; 11.5. Simulation examples; 11.6. Exercises
 Isbn
 9781523102327
 Label
 The finitedifference timedomain for electromagnetics : with MATLAB simulations
 Title
 The finitedifference timedomain for electromagnetics
 Title remainder
 with MATLAB simulations
 Statement of responsibility
 Atef Elsherbeni and Veysel Demir
 Language
 eng
 Summary
 This book introduces the powerful FiniteDifference TimeDomain method to students and interested researchers and readers. An effective introduction is accomplished using a stepbystep process that builds competence and confidence in developing complete working codes for the design and analysis of various antennas and microwave devices
 Cataloging source
 YDXCP
 http://library.link/vocab/creatorName
 Elsherbeni, Atef Z
 Dewey number
 621.382/4
 Illustrations
 illustrations
 Index
 index present
 LC call number
 TK6565.A6
 LC item number
 E47 2016
 Literary form
 non fiction
 Nature of contents

 dictionaries
 bibliography
 http://library.link/vocab/relatedWorkOrContributorDate
 1974
 http://library.link/vocab/relatedWorkOrContributorName
 Demir, Veysel
 Series statement
 ACES Series on Computaional Electromagnetics and Engineering
 http://library.link/vocab/subjectName

 Antenna radiation patterns
 Electromagnetic waves
 Antennas (Electronics)
 Numerical analysis
 Label
 The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book)
 Carrier category
 online resource
 Carrier category code

 cr
 Carrier MARC source
 rdacarrier
 Content category
 text
 Content type code

 txt
 Content type MARC source
 rdacontent
 Contents

 List of figures; List of tables; Preface; Acknowledgements; 1. Introduction to FDTD; 1.1. The finitedifference timedomain method basic equations; 1.2. Approximation of derivatives by finite differences; 1.3. FDTD updating equations for threedimensional problems; 1.4. FDTD updating equations for twodimensional problems; 1.5. FDTD updating equations for onedimensional problems; 1.6. Exercises; 2. Numerical stability and dispersion; 2.1. Numerical stability; 2.2. Numerical dispersion; 2.3. Exercises; 3. Building objects in the Yee grid; 3.1. Definition of objects
 3.2. Material approximations3.3. Subcell averaging schemes for tangential and normal components; 3.4. Defining objects snapped to the Yee grid; 3.5. Creation of the material grid; 3.6. Improved eightsubcell averaging; 3.7. Exercises; 4. Active and passive lumped elements; 4.1. FDTD updating equations for lumped elements; 4.2. Definition, initialization, and simulation of lumped elements; 4.3. Simulation examples; 4.4. Exercises; 5. Source waveforms and time to frequency domain transformation; 5.1. Common source waveforms for FDTD simulations
 5.2. Definition and initialization of source waveforms for FDTD simulations5.3. Transformation from time domain to frequency domain; 5.4. Simulation examples; 5.5. Exercises; 6. SParameters; 6.1. Scattering parameters; 6.2. SParameter calculations; 6.3. Simulation examples; 6.4. Exercises; 7. Perfectly matched layer absorbing boundary; 7.1. Theory of PML; 7.2. PML equations for threedimensional problem space; 7.3. PML loss functions; 7.4. FDTD updating equations for PML and MATLAB implementation; 7.5. Simulation examples; 7.6. Exercises; 8. Advanced PML formulations
 8.1. Formulation of CPML8.2. The CPML algorithm; 8.3. CPML parameter distribution; 8.4. MATLAB implementation of CPML in the threedimensional FDTD method; 8.5. Simulation examples; 8.6. CPML in the twodimensional FDTD method; 8.7. MATLAB implementation of CPML in the twodimensional FDTD method; 8.8. Auxiliary differential equation PML; 8.9. Exercises; 9. Nearfield to farfield transformation; 9.1. Implementation of the surface equivalence theorem; 9.2. Frequency domain nearfield to farfield transformation; 9.3. MATLAB implementation of nearfield to farfield transformation
 9.4. Simulation examples9.5. Exercises; 10. Thinwire modeling; 10.1. Thinwire formulation; 10.2. MATLAB implementation of the thinwire formulation; 10.3. Simulation examples; 10.4. An improved thinwire model; 10.5. MATLAB implementation of the improved thinwire formulation; 10.6. Simulation example; 10.7. Exercises; 11. Scattered field formulation; 11.1. Scattered field basic equations; 11.2. The scattered field updating equations; 11.3. Expressions for the incident plane waves; 11.4. MATLAB implementation of the scattered field formulation; 11.5. Simulation examples; 11.6. Exercises
 Control code
 KNOVEL946606274
 Dimensions
 unknown
 Edition
 Second edition.
 Extent
 1 online resource.
 Form of item
 online
 Isbn
 9781523102327
 Media category
 computer
 Media MARC source
 rdamedia
 Media type code

 c
 Specific material designation
 remote
 Label
 The finitedifference timedomain for electromagnetics : with MATLAB simulations, Atef Elsherbeni and Veysel Demir, (electronic book)
 Carrier category
 online resource
 Carrier category code

 cr
 Carrier MARC source
 rdacarrier
 Content category
 text
 Content type code

 txt
 Content type MARC source
 rdacontent
 Contents

 List of figures; List of tables; Preface; Acknowledgements; 1. Introduction to FDTD; 1.1. The finitedifference timedomain method basic equations; 1.2. Approximation of derivatives by finite differences; 1.3. FDTD updating equations for threedimensional problems; 1.4. FDTD updating equations for twodimensional problems; 1.5. FDTD updating equations for onedimensional problems; 1.6. Exercises; 2. Numerical stability and dispersion; 2.1. Numerical stability; 2.2. Numerical dispersion; 2.3. Exercises; 3. Building objects in the Yee grid; 3.1. Definition of objects
 3.2. Material approximations3.3. Subcell averaging schemes for tangential and normal components; 3.4. Defining objects snapped to the Yee grid; 3.5. Creation of the material grid; 3.6. Improved eightsubcell averaging; 3.7. Exercises; 4. Active and passive lumped elements; 4.1. FDTD updating equations for lumped elements; 4.2. Definition, initialization, and simulation of lumped elements; 4.3. Simulation examples; 4.4. Exercises; 5. Source waveforms and time to frequency domain transformation; 5.1. Common source waveforms for FDTD simulations
 5.2. Definition and initialization of source waveforms for FDTD simulations5.3. Transformation from time domain to frequency domain; 5.4. Simulation examples; 5.5. Exercises; 6. SParameters; 6.1. Scattering parameters; 6.2. SParameter calculations; 6.3. Simulation examples; 6.4. Exercises; 7. Perfectly matched layer absorbing boundary; 7.1. Theory of PML; 7.2. PML equations for threedimensional problem space; 7.3. PML loss functions; 7.4. FDTD updating equations for PML and MATLAB implementation; 7.5. Simulation examples; 7.6. Exercises; 8. Advanced PML formulations
 8.1. Formulation of CPML8.2. The CPML algorithm; 8.3. CPML parameter distribution; 8.4. MATLAB implementation of CPML in the threedimensional FDTD method; 8.5. Simulation examples; 8.6. CPML in the twodimensional FDTD method; 8.7. MATLAB implementation of CPML in the twodimensional FDTD method; 8.8. Auxiliary differential equation PML; 8.9. Exercises; 9. Nearfield to farfield transformation; 9.1. Implementation of the surface equivalence theorem; 9.2. Frequency domain nearfield to farfield transformation; 9.3. MATLAB implementation of nearfield to farfield transformation
 9.4. Simulation examples9.5. Exercises; 10. Thinwire modeling; 10.1. Thinwire formulation; 10.2. MATLAB implementation of the thinwire formulation; 10.3. Simulation examples; 10.4. An improved thinwire model; 10.5. MATLAB implementation of the improved thinwire formulation; 10.6. Simulation example; 10.7. Exercises; 11. Scattered field formulation; 11.1. Scattered field basic equations; 11.2. The scattered field updating equations; 11.3. Expressions for the incident plane waves; 11.4. MATLAB implementation of the scattered field formulation; 11.5. Simulation examples; 11.6. Exercises
 Control code
 KNOVEL946606274
 Dimensions
 unknown
 Edition
 Second edition.
 Extent
 1 online resource.
 Form of item
 online
 Isbn
 9781523102327
 Media category
 computer
 Media MARC source
 rdamedia
 Media type code

 c
 Specific material designation
 remote
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