01990nam 2200517 450 00000157120100708121803.088-17-16704-588-17-16705-320100708d1996----km-y0itay0103----baitaIT<<Lo>> spirito delle leggiCharles-Louis de Secondat de Montesquieuprefazione di Giovanni Macchia; introduzione, cronologia, bibliografia e commento di Robert Derathé ; traduzione di Beatrice Boffito SerraMilanoBiblioteca Universale Rizzolic19962 v.18 cm.BURVol.1.- 5-641 p.Vol.2.- P. 649-1213320.1Montesquieu,Charles Louis de438707Derathé,RobertMacchia,GiovanniBoffito Serra,Beatrice438708ITUniversità della Basilicata - B.I.A.RICAunimarc000001571Spirito delle leggi71941UNIBASMONLETMONOGRLETTEREGLAGUARDIA0119990720BAS011335DILEO2019990721BAS010949DILEO0120000523BAS01134320000913BAS01142420000920BAS01182820001010BAS01163120050601BAS011752batch0120050718BAS01104720050718BAS01110620050718BAS01113620050718BAS011150BATCH0020070503BAS011731MDL0020100708BAS011212ATR0020100708BAS011218BAS01BAS01BOOKBASA1Polo Storico-UmanisticoDIDDidatticaFP/90105FP/9010590105L901051999072031Didattica LettereVol.1BAS01BAS01BOOKBASA1Polo Storico-UmanisticoDIDDidatticaFP/90106FP/9010690106L901061999072031Didattica LettereVol.200934cam0 22002531 450 SOBE0007848420240103095452.020240103d1966 |||||ita|0103 baitaITProcesso ai genitoriEnrico AltavillaMilanoRizzoli1966186 p.22 cmProcesso ai genitoriSOBA000296143658875Altavilla, Enrico < 1883-1968>SOBA00027282070130712ITUNISOB20240103RICAUNISOBUNISOBFondo|Di|Sabato180363SOBE00078484M 102 Monografia moderna SBNMFondo|Di|Sabato000132SI18036320231002DiSabatodonoNSpinosaUNISOBUNISOB20240103095406.020240103095452.0SpinosaPer le modalità di consultazione vedi homepage della biblioteca link FondiProcesso ai genitori3658875UNISOB06866nam 22005173 450 991100715800332120231110215337.01-83724-522-31-5231-4670-21-83953-614-4(CKB)4100000012877570(MiAaPQ)EBC29377720(Au-PeEL)EBL29377720(NjHacI)994100000012877570(OCoLC)1336989782(EXLCZ)99410000001287757020220722d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierMetasurface Electromagnetics The Cagniard-DeHoop Time-Domain Approach1st ed.Norman :Institution of Engineering & Technology,2022.©2022.1 online resource (441 pages)Electromagnetic Waves 1-83953-613-6 Intro -- Contents -- About the author -- Foreword -- Preface -- Acknowledgments -- List of acronyms -- List of symbols -- 1. Introduction -- 1.1 Synopsis -- 1.2 Prerequisites -- References -- 2. Cagniard-DeHoop technique -- 2.1 A concise survey of joint transform methods -- 2.2 EM radiation in a layered medium -- 2.3 Concluding remarks -- References -- 3. Thin-sheet high-contrast saltus-type conditions -- 3.1 Problem formulation -- 3.2 Transition conditions for a thin high-contrast layer with dielectric and conductive properties -- 3.3 Transition conditions for a thin high-contrast layer with combined magnetic and dielectric properties -- References -- 4. Pulsed EM-field response of an infinite metasurface -- 4.1 Pulsed EM plane-wave induced response of a metasurface -- 4.2 Pulsed EM line-source induced response of a metasurface -- 4.3 Dipole-excited pulsed EM signal transfers via a metasurface -- 4.4 Concluding remarks -- References -- 5. Pulsed EM-field surface phenomena on thin sheets -- 5.1 Pulsed EM line-source excited surface effects -- 5.2 Pulsed EM loop-excited surface effects above a layer with dielectric and conductive properties -- 5.3 Illustrative examples -- References -- 6. Pulsed EM-field diffraction by semi-infinite sheets -- 6.1 Pulsed EM diffraction by a semi-infinite PEC sheet -- 6.2 Pulsed EM diffraction by a semi-infinite sheet with conductive and dielectric properties -- 6.3 Pulsed EM diffraction by the junction of two coplanar semi-infinite sheets with conductive and dielectric properties -- 6.4 Pulsed EM diffraction by a semi-infinite metasurface -- 6.5 Pulsed EM diffraction by the junction of two coplanar semi-infinite metasurfaces -- 6.6 Kirchhoff diffraction by semi-infinite sheets -- References -- 7. Pulsed EM-field scattering by narrow metastrips -- 7.1 Pulsed EM scattering by a narrow PEC strip.7.2 Pulsed EM scattering by a narrow strip with conductive and dielectric properties -- 7.3 Pulsed EM scattering by a narrow metastrip -- 7.4 Concluding remarks -- References -- 8. Pulsed EM-field scattering by bounded metasurfaces in a homogeneous embedding -- 8.1 Pulsed EM scattering by a bounded PEC screen -- 8.2 Pulsed EM scattering by a bounded screen with conductive and dielectric properties -- 8.3 Pulsed EM scattering by a bounded metasurface -- References -- 9. Pulsed EM-field scattering by bounded and narrow screens in a layered embedding -- 9.1 Pulsed EM scattering by a bounded screen above the PEC ground -- 9.2 Pulsed EM scattering by a bounded screen on a dielectric half-space -- 9.3 Pulsed EM scattering by a bounded screen on a grounded dielectric slab -- 9.4 Concluding remarks -- References -- 10. Pulsed EM-field coupling between bounded and narrow conductive screens -- 10.1 Problem formulation -- 10.2 Problem solution -- References -- 11. Pulsed EM-field coupling between bounded and narrow metasurfaces -- 11.1 Problem formulation -- 11.2 Problem solution -- 11.3 Narrow-screen approximation -- 11.4 Illustrative examples -- References -- 12. Pulsed EM-field scattering by 3-D bounded metasurfaces -- 12.1 Pulsed EM scattering by a bounded 3-D screen with dielectric and conductive properties -- 12.2 Pulsed EM scattering by a bounded 3-D metasurface -- 12.3 Pulsed EM scattering by a small rectangular screen -- 12.4 Illustrative examples -- 12.5 Concluding remarks -- References -- 13. Pulsed EM-field scattering by apertures -- 13.1 Pulsed EM scattering by a bounded slot -- 13.2 Pulsed EM scattering by narrow slots -- 13.3 Pulsed EM scattering by a bounded aperture -- 13.4 Pulsed EM scattering by a small rectangular aperture -- 13.5 Illustrative examples -- 13.6 Concluding remarks -- References.14. Pulsed EM plane-wave scattering by time-varying metasurfaces -- 14.1 Pulsed EM plane-wave induced response of a time-varying PEC/PMC metasurface -- 14.2 Pulsed EM plane-wave induced response of a time-varying conductive sheet -- 14.3 Concluding remarks -- References -- 15. Pulsed EM response of transmission lines over a metasurface -- 15.1 Transmission line above a PEC plane -- 15.2 Transmission line above a layer with dielectric and conductive properties -- 15.3 Transmission line above a metasurface -- 15.4 Concluding remarks -- References -- 16. Miscellaneous applications -- 16.1 Loop-to-loop pulsed EM close-range signal transfer via a conductive sheet -- 16.2 Loop-to-loop pulsed EM signal transfer via a plasmonic sheet -- 16.3 A Kirchhoff-approximation-based analysis of a slot-excited resonator antenna -- References -- Appendix A: Diffracted-wave amplitude -- Appendix B: Impeditivity array of a PEC screen -- Appendix C: Plane-wave excitation array -- Appendix D: Impeditivity array of a screen with conductive and dielectric properties -- Appendix E: Admittivity array of a PMC screen -- Appendix F: Modified impeditivity array -- Appendix G: Interface impeditivity array -- Appendix H: Slab impeditivity array -- Appendix I: Modified admittivity array -- Appendix J: Coupling array of noncoplanar metasurfaces -- Appendix K: Impedance array of a 3-D screen with dielectric and conductive properties -- Appendix L: Recursive convolution technique -- Index.The book provides original analytical and computational methodologies for solving the EM interaction with modern metasurface structures. New sophisticated modeling methods and closed-form solutions are explored, thereby providing enablers for future developments of thin-layer-based technologies.Electromagnetic Waves Metasurface ElectromagneticsElectromagnetismElectromagnetism.620.11267Stumpf Martin1211642MiAaPQMiAaPQMiAaPQBOOK9911007158003321Metasurface Electromagnetics4392322UNINA