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- Theoretical Foundations
- Monte-Carlo Study of Phonon Heat Conduction in Silicon Thin Films
- Mathematical Description of EM Waves
- Chapter 7. Covariant Formulation of Electrodynamics Notes: • Most of the Material Presented in This Chapter Is Taken from Jackson, Chap
- Calculation of Phonon Dispersion in Semiconductor Nanostructures: an Undergraduate Computational Project Jie Zou Eastern Illinois University, [email protected]
- Internal Waves and Baroclinic, Quasi-Geostrophic Flow: All from One Equation
- Phys 446: Solid State Physics / Optical Properties Lattice Vibrations: Thermal, Acoustic, and Optical Properties
- Examining the Physical Foundation of Continuum Theories from the Viewpoint of Phonon Dispersion Relation
- Relativity and Electromagnetism Initial Questions: How Do Different Astronomical Events Look in Different Frames? How Does This
- Matter-Wave Grating Distinguishing Conservative and Dissipative Interactions
- Wave Four-Vector in a Moving Medium and the Lorentz Covariance of Minkowski's Photon and Electromagnetic Momentums 1
- Determining EMIC Wave Vector Properties Through Multi‐Point Measurements: the Wave Curl Analysis
- Discussion on Electromagnetic Waves Under the Circumstances of Total
- A Proposal of an Algebra for Vectors and an Application to Electromagnetism
- Phonon Dispersion Relations in Crystals
- 3D Wave Equation and Plane Waves / 3D Differential Operators Overview and Motivation: We Now Extend the Wave Equation to Three
- Phonon Wave-Packet Interference and Phonon Tunneling Based Energy Transport Across Nanostructured Thin films ͒ Z
- On the Nature of the Evanescent Wave
- Introduction to the Theory of Lattice Dynamics M.T
- Solid State Physics Lecture 4 – Reciprocal Lattices Professor Stephen Sweeney
- The Schroedinger Equation
- The Riemann-Silberstein Vector As a Photon Wave Function
- Wave Vector Analysis Methods Using Multi-Point Measurements
- The Photon Wave Function in Principle and in Practice Vincent Debierre
- Solutions of the Maxwell Equations and Photon Wave Functions∗
- Chapter 2 Reciprocal Lattice
- What Is the Physical Meaning of Mass in View of Wave-Particle Duality? a Proposed Model
- Lattice Vibrations So Far We Have Been Discussing Equilibrium Properties of Crystal Lattices
- Band Structures and the Meaning of the Wave Vector K
- Visualizing the Phonon Wave Function Scott C
- On Total Internal Reflection?
- Sign Convention for Backward Traveling Waves
- Three Dimensional Waves
- Surface Plasmon Resonance
- The Wave Properties of Matter
- Chapter 2 the Wave Equation
- C = 1 K , 1 L , 1 M K , L , M C = Wavenumber Vector
- Theory of Electromagnetic Fields
- 2. Waves and the Wave Equation
- Evanescent Waves and Total Internal Reflection
- 18 the Electromagnetic Wave Equation
- Maxwell Equations and Total Internal Reflection
- Designing Devices for Wave-Vector Manipulation Using a Transformation-Optics Approach
- Electromagnetic Waves
- Reciprocal Lattice
- Relativistic Doppler Effect of Light and Matter Waves
- On the Wave Nature of Matter: a Transition from Classical Mechanics to Quantum Mechanics
- Total Internal Reflection and the Related Effects 1 (Translation of the Russian Version Appeared in the Proceedings of Tartu State University No
- Electromagnetic Waves Plane Polarized E&M Waves Waves on a String
- Lecture 3 – Chapter 2
- Plane Waves and Wave Propagation
- Electromagnetic Waves in Free Space We Start with Maxwell’S Equations for an LIH Medum in the Case That the Source Terms Ρf and Jf Are Both Zero
- Photon Wave Functions, Wave-Packet Quantization of Light, and Coherence Theory
- 20.1 Revisiting Maxwell's Equations
- Chapter 7. Plane Electromagnetic Waves and Wave Propagation
- Cloaking of Matter Waves
- The Concept of Four-Vectors V. Devanathan