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- catalog contributor b11620627.
- catalog contributor b11620628.
- catalog created "2000.".
- catalog date "2000".
- catalog date "2000.".
- catalog dateCopyrighted "2000.".
- catalog description "1. Introduction. 1.1. Dipole Current Densities in Maxwell's Equations. 1.2. Ohm's Law for Induced Electric Dipoles with Mass. 1.3. Magnetic Ohm's Law for Magnetic Dipoles with Mass. 1.4. Dipoles and Quadrupoles Created in Vacuum. 1.5. Observation of Dipole Currents. 1.6. Approximation of Signal Functions by Exponential Functions -- 2. Electric Field Strength Due to Electric Excitation. 2.1. Derivation of the Partial Differential Equation. 2.2. Electric Field Strength for Eigenfunction Excitation. 2.3. Algebraic Equation of Sixth Order. 2.4. Solution of Differential Equation of Sixth Order. 2.5. Plots of the Electric Field Strength for p <1/2. 2.6. Plots of the Electric Field Strength for p> 1/2 -- 3. Associated Field Strengths.".
- catalog description "Includes bibliographical references (p. 273-275) and index.".
- catalog extent "xii, 277 p. ;".
- catalog identifier "0306463164".
- catalog issued "2000".
- catalog issued "2000.".
- catalog language "eng".
- catalog publisher "New York : Kluwer Academic/Plenum,".
- catalog subject "523.01/501 21".
- catalog subject "Extraterrestrial radiation.".
- catalog subject "Interstellar matter.".
- catalog subject "QB461 .H337 2000".
- catalog tableOfContents "1. Introduction. 1.1. Dipole Current Densities in Maxwell's Equations. 1.2. Ohm's Law for Induced Electric Dipoles with Mass. 1.3. Magnetic Ohm's Law for Magnetic Dipoles with Mass. 1.4. Dipoles and Quadrupoles Created in Vacuum. 1.5. Observation of Dipole Currents. 1.6. Approximation of Signal Functions by Exponential Functions -- 2. Electric Field Strength Due to Electric Excitation. 2.1. Derivation of the Partial Differential Equation. 2.2. Electric Field Strength for Eigenfunction Excitation. 2.3. Algebraic Equation of Sixth Order. 2.4. Solution of Differential Equation of Sixth Order. 2.5. Plots of the Electric Field Strength for p <1/2. 2.6. Plots of the Electric Field Strength for p> 1/2 -- 3. Associated Field Strengths.".
- catalog title "Interstellar propagation of electromagnetic signals / Henning F. Harmuth and Konstantin A. Lukin.".
- catalog type "text".