Archives for Entanglement - Page 2
Introduce Scattering in Bohm’s EPR Experiment
Introduction In the context of Bohm's version of the EPR (Einstein-Podolsky-Rosen) experiment, two entangled electrons are prepared in a singlet state, meaning their total spin is zero. When these electrons…
Quantum vs. Classical States of a Combined System
A classical state doesn't require basis vectors - since it is a simple POINT in phase space. This is true even of combined states in classical physics. In QM, every…
Probabilities in Bell’s Theorem – Different orientations
In testing bell's theorem, what is the probability that if orientation settings are different, the two detectors will flash different colors? Bell's theorem addresses the statistical predictions of quantum mechanics…
Why Quantum Entanglement cannot be used to send instantaneous messages
Quantum entanglement is a fascinating phenomenon in quantum mechanics where two or more particles become interconnected in such a way that the state of one particle instantly influences the state…
Superluminal Potentials in Quantum Physics
The paper "Quantum Field Derivation of the Superluminal Schrödinger Equation and Deuteron Potential" by Betinis, published in Physics Essays in 2002, explores the theoretical foundations and implications of superluminal quantum…
What is Quantum Field Entanglement?
What is Field Entanglement? Field entanglement refers to the quantum entanglement between modes of a quantum field. Unlike particle entanglement, which involves correlations between discrete particles, field entanglement pertains to…
Quantum Entanglement and Teleportation
Entanglement and Local Hidden Variables (LHV) Entangled States and Wigner Functions: Entangled states with non-negative Wigner functions can be interpreted using local hidden variables (LHV). Bell's theorem indicates that quantum…
Product States in Quantum Mechanics
Also read - Creating Operators and Eigenvectors What are Product States? Product States are states of entangled particles - or particles that have interacted in some manner (some energy exchange).…
Wavefunction as a statistical ensemble of classical systems
We are used to the assumption that a wavefunction (in a sense) represents a classical ensemble of systems. This assumption, though helpful for certain scenarios ( simple hydrogen atom wave…
A framework to understand the root of entanglement
First read this - Wave or Particle or Neither? If indeed, a particle is a PROCESS (one in which several pulses combine to appear at a point and then dissolve…