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Transient Analysis of Dispersive Power-Ground Plate Pairs With Arbitrarily Shaped Antipads by the DGTD Method With Wave Port Excitation
Ping Li, Li Jun Jiang,
Hakan Bagci
Electrical and Computer Engineering
Computer, Electrical and Mathematical Sciences and Engineering
Research output
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Contribution to journal
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Article
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peer-review
37
Scopus citations
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Dive into the research topics of 'Transient Analysis of Dispersive Power-Ground Plate Pairs With Arbitrarily Shaped Antipads by the DGTD Method With Wave Port Excitation'. Together they form a unique fingerprint.
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Engineering
Transient Analysis
100%
Discontinuous Galerkin
100%
Eigenmode
100%
Time Domain Processing
100%
Electric Field
66%
Time Domain
33%
Numerical Example
33%
Closed Form Solution
33%
Signal Power
33%
Parallel Plate
33%
Numerical Scheme
33%
Scattering Parameters
33%
Applicability
33%
Expansion Coefficient
33%
Constitutive Relation
33%
Current Source
33%
Demonstrates
33%
Orthogonality
33%
Auxiliary Equation
33%
Keyphrases
Dispersive Power
100%
Wave Port Excitation
100%
Anti-pad
100%
Power Ground
100%
Wave Port
50%
Temporal Expansion
25%
Spatial Orthogonality
25%
Parallel-plate Pair
25%
Power Integrity
25%
Volume Current
25%
Temporal Mode
25%
Chemical Engineering
Auxiliaries
100%