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equations:pauli_equation

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Pauli Equation

$$ \left( \frac{1}{2m}(\vec \sigma ( \vec p - q\vec A))^2 + q\phi \right) \Psi = i \hbar \partial_t \Psi $$
Definitions
$\Psi$ is the wave function, $m$ the mass of the particle, $q$ the charge of the particle, $\vec{\sigma}$ the Pauli matrices, $\vec{p}$ the momentum, $\vec A$ the vector potential and $\phi$ the electric scalar potential.

Take note that $\vec \sigma$, a "vector of matrices" is only used as a convenient short-hand notation for the sums that appear in the equation. For example, $\vec \sigma \vec p = \sigma_1 p_1 + \sigma_2 p_2 + \sigma_3 p_3. $

Why is it interesting?

The Pauli equation is the correct non-relativistic equation to describe spin $1/2$ particles.

Layman

Explanations in this section should contain no formulas, but instead colloquial things like you would hear them during a coffee break or at a cocktail party.

Student

The Pauli equation is the non-relativistic limit of the Dirac equation.

Researcher

  • Nonrelativistic particles and wave equations by Jean-Marc Lévy-Leblond
Common Question 1
Common Question 2

Examples

Example1
Example2:

History

equations/pauli_equation.1520936001.txt.gz · Last modified: 2018/03/13 10:13 (external edit)