Excited state
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- Wave-Particle Dualism and Complementarity Unraveled by a Different Mode
- The Wave-Particle Duality – Does the Concept of Particle Make Sense in Quantum Mechanics? Should We Ask the Second Quantization?
- Chapter 4 Time–Independent Schrödinger Equation
- Delayed-Choice Gedanken Experiments and Their Realizations
- Comprehending Quantum Theory from Quantum Fields
- Bohmian Mechanical Trajectories for the Simple Harmonic Oscillator
- Theoretical Studies of Ground and Excited State Reactivity
- Bohmian Trajectories of the Two-Electron Helium Atom
- Two Electrons: Excited States
- Quantum Nonequilibrium in De Broglie-Bohm Theory and Its Effects in Black Holes and the Early Universe
- Entanglement Entropy in Excited States
- The Bohr Atom
- Chapter 7 the Schroedinger Equation in One Dimension in Classical Mechanics the State of Motion of a Particle Is Specified by the Particle’S Position and Velocity
- Quantum Theory of Half-Integer Spin Free Particles from the Perspective of the Majorana Equation
- Quantum Computing in the De Broglie-Bohm Pilot-Wave Picture
- Quantum Mechanics As a Statistical Theory: a Short History and a Worked Example
- O Schrödinger Equation for O Two-Electron Atoms. O Multi
- Figure 33: the First Three Wavefunctions for a Particle Moving in One Dimension Inside a Box with Walls at X=0 and X=L. Must