equations:pauli_equation
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equations:pauli_equation [2018/03/26 16:38] jakobadmin |
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| - | ====== Pauli Equation: $ \quad \left( \frac{1}{2m}(\vec \sigma ( \vec p - q\vec A))^2 + q\phi \right) \Psi = i \hbar \partial_t \Psi $ ====== | + | <WRAP lag>$\left( \frac{1}{2m}(\vec \sigma ( \vec p - q\vec A))^2 + q\phi \right) \Psi = i \hbar \partial_t \Psi $</WRAP> |
| + | ====== Pauli Equation ====== | ||
| - | <tabbox Why is it interesting?> | ||
| - | The Pauli equation is the correct __non-relativistic__ equation to describe spin $1/2$ particles. | ||
| - | <tabbox Layman> | + | |
| + | <tabbox Intuitive> | ||
| <note tip> | <note tip> | ||
| Line 12: | Line 12: | ||
| </note> | </note> | ||
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| - | <tabbox Student> | + | <tabbox Concrete> |
| The Pauli equation is the non-relativistic limit of the [[equations:dirac_equation|Dirac equation]]. | The Pauli equation is the non-relativistic limit of the [[equations:dirac_equation|Dirac equation]]. | ||
| - | <tabbox Researcher> | + | <tabbox Abstract> |
| * Nonrelativistic particles and wave equations by Jean-Marc Lévy-Leblond | * Nonrelativistic particles and wave equations by Jean-Marc Lévy-Leblond | ||
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| + | <tabbox Why is it interesting?> | ||
| + | |||
| + | The Pauli equation is the correct __non-relativistic__ equation to describe spin $1/2$ particles. | ||
| <tabbox Definitions> | <tabbox Definitions> | ||
equations/pauli_equation.txt · Last modified: 2018/04/16 09:09 by jakobadmin
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