Search Results - Polarization (waves)

Mathematical and physical modelling of microwave scattering and polarimetric remote sensing monitoring the Earth's environment using polarimetric radar : formulation and potential... by Kozlov, A. I. (Anatoliĭ Ivanovich)

Subjects: An electronic book accessible through the World Wide Web; click to view

Mathematical and physical modelling of microwave scattering and polarimetric remote sensing monitoring the Earth's environment using polarimetric radar : formulation and potential... by Kozlov, A. I. (Anatoliĭ Ivanovich)

Subjects: An electronic book accessible through the World Wide Web; click to view

Microstrip and printed antennas new trends, techniques, and applications /

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Microstrip and printed antennas new trends, techniques, and applications /

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Principles of electromagnetics. by Adams, Arlon T., Lee, Jay K.

Table of Contents: “…Introduction to reflection and transmission of electromagnetic waves -- 1.1 Introduction -- 1.2 Normal incidence at a dielectric boundary -- 1.3 Oblique incidence at a dielectric boundary -- 1.3.1 Perpendicular polarization -- 1.3.2 Parallel polarization -- 1.4 Total internal reflection -- 1.5 Brewster angle effect -- 1.6 Reflection from perfect conductor - standing wave -- 1.6.1 Standing waves -- 1.6.2 Normal incidence --…”
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Principles of electromagnetics. by Adams, Arlon T., Lee, Jay K.

Table of Contents: “…Introduction to reflection and transmission of electromagnetic waves -- 1.1 Introduction -- 1.2 Normal incidence at a dielectric boundary -- 1.3 Oblique incidence at a dielectric boundary -- 1.3.1 Perpendicular polarization -- 1.3.2 Parallel polarization -- 1.4 Total internal reflection -- 1.5 Brewster angle effect -- 1.6 Reflection from perfect conductor - standing wave -- 1.6.1 Standing waves -- 1.6.2 Normal incidence --…”
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Nanostructured and subwavelength waveguides fundamentals and applications / by Skorobogatiy, Maksim, 1974-

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Nanostructured and subwavelength waveguides fundamentals and applications / by Skorobogatiy, Maksim, 1974-

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Optical coherence tomography principles and applications / by Brezinski, Mark E.

Table of Contents: “…The basics (math, waves, etc.) for the nonphysical scientist -- Light and electromagnetic waves -- Light in matter -- Interference, coherence, diffraction, and transfer functions -- Optical coherence tomography theory -- Optoelectronics and optical components -- Noise and system performance with TD-OCT and SD-OCT -- Polarization and polarization sensitive OCT -- Adjuvant techniques: absorption spectroscopy, contrast probes, phase contrast, elastography, and entangled photons -- Doppler optical coherence tomography -- Digital image processing techniques for speckle reduction, enhancement, and segmentation of optical coherence tomography (OCT) images -- Application of OCT to clinical imaging: introduction -- Other technologies -- Introduction to clinical research design and analysis -- OCT in cardiovascular medicine -- OCT in musculoskeletal disease -- OCT in oncology.…”
An electronic book accessible through the World Wide Web; click to view

Optical coherence tomography principles and applications / by Brezinski, Mark E.

Table of Contents: “…The basics (math, waves, etc.) for the nonphysical scientist -- Light and electromagnetic waves -- Light in matter -- Interference, coherence, diffraction, and transfer functions -- Optical coherence tomography theory -- Optoelectronics and optical components -- Noise and system performance with TD-OCT and SD-OCT -- Polarization and polarization sensitive OCT -- Adjuvant techniques: absorption spectroscopy, contrast probes, phase contrast, elastography, and entangled photons -- Doppler optical coherence tomography -- Digital image processing techniques for speckle reduction, enhancement, and segmentation of optical coherence tomography (OCT) images -- Application of OCT to clinical imaging: introduction -- Other technologies -- Introduction to clinical research design and analysis -- OCT in cardiovascular medicine -- OCT in musculoskeletal disease -- OCT in oncology.…”
An electronic book accessible through the World Wide Web; click to view

Physics for scientists and engineers with modern physics / by Giancoli, Douglas C.

Table of Contents: “…Introduction, measurement, estimating -- Mechanics -- Describing motion -- Kinematics in two or three dimensions -- Dynamics -- Using Newton's laws -- Gravitation and Newton's synthesis -- Work and energy -- Conservation of energy -- Linear momentum -- Rotational motion -- Angular momentum -- Static equilibrium -- Fluids, vibrations, waves, sound -- Fluids -- Oscillations -- Wave motion -- Sound -- Kinetic theory and thermodynamics -- Temperature, thermal expansion, and the ideal gas law -- Kinetic theory of gases -- Heat and the first law of thermodynamics -- Second law of thermodynamics -- Electricity and magnetism -- Electric charge and electric field -- Gauss's law -- Electric potential -- Capacitance, dielectrics, electric energy storage -- Electric currents and resistance -- DC circuits -- Magnetism -- Sources of magnetic field -- Electromagnetic induction and faraday's Law -- Inductance, electromagnetic oscillations -- Maxwell's equations and electromagnetic waves -- Light -- Lenses and optical instruments -- The wave nature of light -- Diffraction and polarization -- Modern physics -- Special theory of relativity -- Early quantum theory and models of the atom -- Quantum mechanics -- Quantum mechanics of atoms -- Molecules and solids -- Nuclear physics and radioactivity -- Nuclear energy -- Elementary particles -- Astrophysics and cosmology.…”
Table of contents only

Physics for scientists and engineers with modern physics / by Giancoli, Douglas C.

Table of Contents: “…Introduction, measurement, estimating -- Mechanics -- Describing motion -- Kinematics in two or three dimensions -- Dynamics -- Using Newton's laws -- Gravitation and Newton's synthesis -- Work and energy -- Conservation of energy -- Linear momentum -- Rotational motion -- Angular momentum -- Static equilibrium -- Fluids, vibrations, waves, sound -- Fluids -- Oscillations -- Wave motion -- Sound -- Kinetic theory and thermodynamics -- Temperature, thermal expansion, and the ideal gas law -- Kinetic theory of gases -- Heat and the first law of thermodynamics -- Second law of thermodynamics -- Electricity and magnetism -- Electric charge and electric field -- Gauss's law -- Electric potential -- Capacitance, dielectrics, electric energy storage -- Electric currents and resistance -- DC circuits -- Magnetism -- Sources of magnetic field -- Electromagnetic induction and faraday's Law -- Inductance, electromagnetic oscillations -- Maxwell's equations and electromagnetic waves -- Light -- Lenses and optical instruments -- The wave nature of light -- Diffraction and polarization -- Modern physics -- Special theory of relativity -- Early quantum theory and models of the atom -- Quantum mechanics -- Quantum mechanics of atoms -- Molecules and solids -- Nuclear physics and radioactivity -- Nuclear energy -- Elementary particles -- Astrophysics and cosmology.…”
Table of contents only

Dear Dr. Spock letters about the Vietnam War to America's favorite baby doctor /

Table of Contents: “…Gunfire in the distance, 1965 -- Into the Quagmire, 1966 -- Polarization, January - October, 1967 -- The antiwar challenge and its discontents, October 1967 - -- February 1968 -- Shock waves : the aftermath of Tet and the ordeal at Home, February - May, 1968 -- The war on trial, May - September, 1968 -- Toward Nixon's war, September 1968 - December, 1969 -- The end of the tunnel, 1970-1972.…”
An electronic book accessible through the World Wide Web; click to view

Dear Dr. Spock letters about the Vietnam War to America's favorite baby doctor /

Table of Contents: “…Gunfire in the distance, 1965 -- Into the Quagmire, 1966 -- Polarization, January - October, 1967 -- The antiwar challenge and its discontents, October 1967 - -- February 1968 -- Shock waves : the aftermath of Tet and the ordeal at Home, February - May, 1968 -- The war on trial, May - September, 1968 -- Toward Nixon's war, September 1968 - December, 1969 -- The end of the tunnel, 1970-1972.…”
An electronic book accessible through the World Wide Web; click to view

Light by Robertson, William C.

An electronic book accessible through the World Wide Web; click to view

Light by Robertson, William C.

An electronic book accessible through the World Wide Web; click to view

Computational quantum chemistry an interactive guide to basis set theory / by Quinn, Charles M.

Table of Contents: “…Machine generated contents note: 1 Essential atomic orbital theory -- 11 Atomic orbitals for the hydrogen atom -- 12 Radial distribution functions for the hydrogen atom -- 13 Radial wave functions for many-electron atoms -- 14 Slater-type orbitals -- 15 Gaussian-type functions-the Isto-3g) minimal basis set -- 16 isto-ng) basis sets -- 17 Scaling factors -- 18 The (4s/2s) basis set, polarization and scaling factors for molecular -- environments -- 19 Gaussian-lobe and other Gaussian basis sets -- 2 Numerical integration -- 21 Numerical integration -- 22 Application of Simpson's rule to calculate a normalization integral -- 23 Calculations of normalization constants over the angular coordinates -- 24 Numerical integration in a cylindrical volume: diatomic and linear -- molecular geometries -- 25 Calculation of the overlap integral between Is orbitals in a Gaussian -- basis -- 26 Designing Gaussian basis sets to model Slater orbitals -- 3 Orthonormality -- 31 Orthonormality in Slater orbital and basis set theory -- 32 Orthonormality and Slater orbitals -- 33 Orthonormality and Gaussian orbitals -- 34 Orthonormality and double-zeta Slater orbitals -- 35 Orthonormality and split-basis or double-zeta Gaussian basis sets -- 36 The Jacobi transformation, diagonalization of a symmetric matrix and -- canonical orthogonalization -- 37 The S-1/2 'trick' -- 38 Symmetric orthonormalization -- 4 The hydrogen atom -numerical solutions -- 41 Eigenvalue calculations for hydrogen based on analytical functions -- 42 Calculations using Slater orbitals -- 43 Calculations with Gaussian functions -- 44 Calculations with split-basis [split-valence] sets -- 45 Review of results for the ls and 2s orbital energies in hydrogen -- 5 The helium atom and the self-consistent field -- 51 Hartree's analysis of the helium atom problem -- 52 Calculations with modified hydrogen atom wave functions -- 53 The Hall-Roothaan equations, the orbital approximation and -- the modem Hartree-Fock self-consistent field method -- 54 Calculations using Slater DZ functions -- 55 Gaussian basis set calculations for the helium atom-two-electron -- integrals over Gaussian basis functions -- 56 A HFS-SCF calculation with split-basis 14-31) for helium -- 57 Helium, singlet and triplet excited states, electron spin and the role -- of the Exchange integral -- 6 One- and two-electron diatoms -- 61 Calculations using hydrogen Is orbitals -- 62 Sto-3g calculations for H2+ -- 63 Calculations using Gaussian basis sets with the exact evaluation of -- integrals using Fourier transforms -- 64 Calculations involving the two-electron terms; the Isto-3g) -- HF-SCF results for dihydrogen -- 65 The standard form for the results of HFS-SCF calculations -- 66 The Isto-3g) HFS-SCF calculation for HeH+ -- 67 Polarization functions, Gaussian lobes and higher-order Gaussian -- basis sets -- 68 Epilogue.…”
An electronic book accessible through the World Wide Web; click to view

Computational quantum chemistry an interactive guide to basis set theory / by Quinn, Charles M.

Table of Contents: “…Machine generated contents note: 1 Essential atomic orbital theory -- 11 Atomic orbitals for the hydrogen atom -- 12 Radial distribution functions for the hydrogen atom -- 13 Radial wave functions for many-electron atoms -- 14 Slater-type orbitals -- 15 Gaussian-type functions-the Isto-3g) minimal basis set -- 16 isto-ng) basis sets -- 17 Scaling factors -- 18 The (4s/2s) basis set, polarization and scaling factors for molecular -- environments -- 19 Gaussian-lobe and other Gaussian basis sets -- 2 Numerical integration -- 21 Numerical integration -- 22 Application of Simpson's rule to calculate a normalization integral -- 23 Calculations of normalization constants over the angular coordinates -- 24 Numerical integration in a cylindrical volume: diatomic and linear -- molecular geometries -- 25 Calculation of the overlap integral between Is orbitals in a Gaussian -- basis -- 26 Designing Gaussian basis sets to model Slater orbitals -- 3 Orthonormality -- 31 Orthonormality in Slater orbital and basis set theory -- 32 Orthonormality and Slater orbitals -- 33 Orthonormality and Gaussian orbitals -- 34 Orthonormality and double-zeta Slater orbitals -- 35 Orthonormality and split-basis or double-zeta Gaussian basis sets -- 36 The Jacobi transformation, diagonalization of a symmetric matrix and -- canonical orthogonalization -- 37 The S-1/2 'trick' -- 38 Symmetric orthonormalization -- 4 The hydrogen atom -numerical solutions -- 41 Eigenvalue calculations for hydrogen based on analytical functions -- 42 Calculations using Slater orbitals -- 43 Calculations with Gaussian functions -- 44 Calculations with split-basis [split-valence] sets -- 45 Review of results for the ls and 2s orbital energies in hydrogen -- 5 The helium atom and the self-consistent field -- 51 Hartree's analysis of the helium atom problem -- 52 Calculations with modified hydrogen atom wave functions -- 53 The Hall-Roothaan equations, the orbital approximation and -- the modem Hartree-Fock self-consistent field method -- 54 Calculations using Slater DZ functions -- 55 Gaussian basis set calculations for the helium atom-two-electron -- integrals over Gaussian basis functions -- 56 A HFS-SCF calculation with split-basis 14-31) for helium -- 57 Helium, singlet and triplet excited states, electron spin and the role -- of the Exchange integral -- 6 One- and two-electron diatoms -- 61 Calculations using hydrogen Is orbitals -- 62 Sto-3g calculations for H2+ -- 63 Calculations using Gaussian basis sets with the exact evaluation of -- integrals using Fourier transforms -- 64 Calculations involving the two-electron terms; the Isto-3g) -- HF-SCF results for dihydrogen -- 65 The standard form for the results of HFS-SCF calculations -- 66 The Isto-3g) HFS-SCF calculation for HeH+ -- 67 Polarization functions, Gaussian lobes and higher-order Gaussian -- basis sets -- 68 Epilogue.…”
An electronic book accessible through the World Wide Web; click to view

Telemetry research, technology and applications /

Table of Contents: “…[et al.] -- Audible-wave telemetry with PC sound card for remote analysis applications / Natchanon Amornthammarong ... …”
An electronic book accessible through the World Wide Web; click to view

Telemetry research, technology and applications /

Table of Contents: “…[et al.] -- Audible-wave telemetry with PC sound card for remote analysis applications / Natchanon Amornthammarong ... …”
An electronic book accessible through the World Wide Web; click to view