Difference between revisions of "Main Page"

From amowiki
Jump to navigation Jump to search
 
(6 intermediate revisions by 3 users not shown)
Line 1: Line 1:
Welcome to the MIT Aomic Physics Wiki.  This is a collection of reference material that [[Wiki editing instructions|you can edit]].  Please contribute new content, as well as comments on and improvements to existing material.  Our goal is to develop a helpful resource for all students in the field of modern atomic physics.
+
Welcome to the MIT Atomic Physics Wiki.  This is a collection of reference material that [[Wiki editing instructions|you can edit]].  Please contribute new content, as well as comments on and improvements to existing material.  Our goal is to develop a helpful resource for all students in the field of modern atomic physics.
  
 
== Part I Course Notes (8.421) ==
 
== Part I Course Notes (8.421) ==
Line 6: Line 6:
 
* 2.  [[Atoms]]
 
* 2.  [[Atoms]]
 
* 3.  [[Fine Structure and Lamb Shift]]
 
* 3.  [[Fine Structure and Lamb Shift]]
* 4, [[Nuclear|Effects of the Nucleus on Atomic Structure]]
+
* 4. [[Effects of the Nucleus on Atomic Structure]]
* 6.  [[B-field|Atoms in Magnetic Fields]]
+
* 5.  [[Atoms in Magnetic Fields]]
* 7.  [[Lineshape|Resonance Line Shapes]]
+
* 6.  [[Atoms in electric fields]]  
* 8.  [[Higher-Order Radiation Processes]]
+
* 7.  [[Interaction_of_an_atom_with_an_electromagnetic_field|Light-atom interactions]]
 +
* 8.  [[Lineshape|Resonance Line Shapes]]
 
* 9.  [[Two-Photon Excitation]]
 
* 9.  [[Two-Photon Excitation]]
 
* 10. [[Coherence]]
 
* 10. [[Coherence]]

Latest revision as of 15:21, 6 February 2024

Welcome to the MIT Atomic Physics Wiki. This is a collection of reference material that you can edit. Please contribute new content, as well as comments on and improvements to existing material. Our goal is to develop a helpful resource for all students in the field of modern atomic physics.

Part I Course Notes (8.421)

Old MIT 8.421 Course Notes (pre-2008)

This material is from MIT 8.421 Atomic Physics I

Part II Course Notes (8.422)

Prof. Dave Pritchard demonstrating classical squeezing with a parametrically driven pendulum oscillator see video

Sample Topics

Useful Resources