04558nam 2200601Ia 450 991045290950332120200520144314.01-61761-951-5(CKB)2550000001040577(EBL)3017677(SSID)ssj0001074061(PQKBManifestationID)11600543(PQKBTitleCode)TC0001074061(PQKBWorkID)11187178(PQKB)10837042(MiAaPQ)EBC3017677(Au-PeEL)EBL3017677(CaPaEBR)ebr10654648(OCoLC)923653238(EXLCZ)99255000000104057720021011d2010 uy 0engur|n|---|||||txtccrAdvances in laser and optics research[electronic resource] Volume 3 /William T. Arkin, editorNew York Nova Sciencec20101 online resource (208 p.)Advances in Laser and Optics Research ;v.3Description based upon print version of record.1-59033-855-3 Includes bibliographical references and index.""ADVANCES IN LASERAND OPTICS RESEARCH,VOLUME 3""; ""ADVANCES IN LASERAND OPTICS RESEARCH,VOLUME 3""; ""CONTENTS""; ""PREFACE""; ""ADVANCES IN COPPER LASER TECHNOLOGY:KINETIC ENHANCEMENT""; ""1. Introduction""; ""2. Background""; ""2.1. Role of Pre-Pulse Electron Density""; ""2.2. Engineering the Pre-Pulse Electron Density""; ""3. Operating Characteristics of KE-CVLs""; ""3.1. Output Power and Efficiency""; ""3.2. Pulse Rate Scaling of KE-CVLS""; ""3.3. Specific Average-Output Power Scaling""; ""3.4. Temporal Characteristics of KE-CVL Output""""3.5. Spatial Characteristics of KE-CVL Output""""3.6. High Beam Quality Operation of KE-CVLs""; ""4. Diagnostics of Kinetically Enhanced CVLs""; ""4.1. Copper Density Measurement""; ""4.2. Computer Modelling of KE-CVLs""; ""5. Operation of KE-CVLS in Oscillator-Amplifier Configuration""; ""6. High Power UV Generation from KE-CVLs""; ""Acknowledgments""; ""References""; ""MERGING QUANTUM THEORY INTO CLASSICALPHYSICS""; ""Abstract""; ""1. Introduction""; ""2. Comparison of Classical and Quantum Electrodynamics""; ""2.1. Modes of the ElectromagneticWaves""""2.2. Elementary Light-Matter Interaction in Classical Optics""""2.3. The Classical Zero Point Field""; ""2.4. The Zero Point Field and the Detection of Low Level Light""; ""2.5. Spontaneous Emission and Absorption: Einstein�s Coefficients""; ""2.6. Mechanism of Emission and Absorption of a Photon""; ""2.7. Comparison of Quantum and Classical Electrodynamics""; ""3. Some Properties of Nonlinear Waves: The (3+0)D Solitons""; ""3.1. The Filaments of Light""; ""3.2. Perturbation of a Filament by a Magnetic Nonlinearity""""4. Tentative Setting of a Classical Theory Including the ImportantQuantum Results""""4.1. Is Matter Made of Electromagnetic (3+0)D Solitons?""; ""4.2. Inserting the Quantum Calculation of Energies into the Classical Theory""; ""5. Conclusion""; ""References""; ""A POSSIBLE SCENARIO FOR VOLUMETRICDISPLAY THROUGH NANOPARTICLE SUSPENSIONS""; ""Abstract""; ""References""; ""STATISTICAL PROPERTIES OF NONLINEARPHASE NOISE""; ""Abstract""; ""1. Introduction""; ""2. Joint Statistics of Nonlinear Phase Noise and Electric Field""; ""2.1. Normalization of Nonlinear Phase Noise""""2.2. Series Expansion""""2.3. Joint Characteristic Function""; ""3. The Probability Density Function of Nonlinear Phase Noise""; ""4. Some Joint Characteristic Functions""; ""4.1. Joint Characteristic Function of Nonlinear Phase Noise and ReceivedIntensity""; ""4.2. Joint Characteristic Function of Nonlinear Phase Noise and Phase ofAmplifier Noise""; ""5. Error Probability of DPSK Signal""; ""5.1. Phase Distribution""; ""5.2. Error Probability""; ""5.3. Approximation of Independence""; ""5.4. Numerical Results""; ""6. Compensation of Nonlinear Phase Noise""; ""6.1. Linear Compensation""""6.2. Nonlinear Compensation""Advances in Laser and Optics ResearchLasersResearchOpticsResearchElectronic books.LasersResearch.OpticsResearch.Arkin William T876439MiAaPQMiAaPQMiAaPQBOOK9910452909503321Advances in laser and optics research1957115UNINA