Differences

This shows you the differences between two versions of the page.

--- equations:dirac_equation [2017/12/04 08:01]
127.0.0.1 external edit
+++ equations:dirac_equation [2021/05/30 18:16]
edi [Concrete]
@@ Line 1: / Line 1: @@
+<WRAP lag>$  (i\gamma_\mu \partial^\mu - m ) \Psi =0 $</WRAP>
 ====== Dirac Equation ======
-<tabbox Why is it interesting?>
-<note tip>It's the correct equation of motion that describes free [[basic_notions:spin|spin]] $1/2$ particles.
+<tabbox Intuitive>
-</note>
+The Dirac equation describes how the state of a relativistic (= fast moving) quantum system with half-integer spin changes in time.
+The analogous equation for systems without spin is the [[equations:klein-gordon_equation|Klein-Gordon equation]].
-<blockquote>In fact, Dirac's equation for the electron must be rated, alongside the [[equations:maxwell_equations|Maxwell]] and [[equations:einstein_equation|Einstein equations]], as one of the Great Field Equations of physics.<cite>page 289 in "The Emperors new Mind" by Penrose</cite></blockquote>
+If the system only moves slowly, the Dirac equation becomes the [[equations:pauli_equation|Pauli equation]].
-<tabbox Layman>
-<note tip>
+<tabbox Concrete>
-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.
-</note>
-<tabbox Student>
   * A nice discussion can be found in [[http://www.quantumfieldtheory.info/website_Chap04.pdf |chapter 4 of Klauber's Student Friendly QFT book]]
@@ Line 28: / Line 25: @@
   * For a nice description, see section 7.4.3 "Diracology" in the book The Conceptual Framework of Quantum Field Theory by Duncan
-<tabbox Researcher>
+----
+**Graphical Summary**
+The diagram below shows the Dirac equation and its Lagrangian in various forms. For a more detailed explanation see [[https://esackinger.wordpress.com/|Fun with Symmetry]].
+{{:equations:dirac.jpg?nolink}}
+<tabbox Abstract>
 <note tip>
@@ Line 34: / Line 40: @@
 </note>
---> Common Question 1#
+<tabbox Why is it interesting?>
+The Dirac equation is the correct equation of motion that describes free [[basic_notions:spin|spin]] $1/2$ particles.
-<--
---> Common Question 2#
-<--
-<tabbox Examples>
---> Example1#
+<blockquote>In fact, Dirac's equation for the electron must be rated, alongside the [[equations:maxwell_equations|Maxwell]] and [[equations:einstein_equation|Einstein equations]], as one of the Great Field Equations of physics.<cite>page 289 in "The Emperors new Mind" by Penrose</cite></blockquote>
+<tabbox Definitions>
-<--
---> Example2:#
+  * $\partial _{\mu} $ denotes the partial derivative and $ \gamma_{\mu} \partial^{\mu}$ stands for a sum using the Einstein sum convention, i.e. $\gamma_{\mu} \partial ^{\mu} =  \gamma_0 \partial^0 - \gamma_1 \partial^1 -\gamma_2 \partial^2 -\gamma_3 \partial^3$,
-<--
+  * $m$ denotes the mass of the particle,
+  * $\Psi$ is either the wave function of the spin $1/2$ particle if we use the Dirac equation in a particle theory, or describes the spin $1/2$ field if we work in a field theory. In any case, $\Psi$ is not a vector but a [[advanced_tools:spinors|spinor]].
+  * $\gamma_\mu$ are the Dirac gamma matrices.
 <tabbox History>

User Tools

Site Tools

Differences

Page Tools