Difference between revisions of "Forest FermiGoldenRule Notes"

From New IAC Wiki
Jump to navigation Jump to search
Line 8: Line 8:
 
: <math>\phi_f</math> = final quantum state of system after a transition
 
: <math>\phi_f</math> = final quantum state of system after a transition
 
: <math>H_{pert}</math> = part of the Hamiltonian which is responsible for the transition.
 
: <math>H_{pert}</math> = part of the Hamiltonian which is responsible for the transition.
 +
:<math>H_0</math> = Unperturbed ("steady state") Hamiltonian
 +
: <math>H_{tot} = H_0 + H_{pert}</math> = total hamiltonian describing the quantum mechanical system
 
: <math>dv</math> integration over all space
 
: <math>dv</math> integration over all space

Revision as of 03:11, 22 November 2007

Fermi's Golden rule is used to calculate the probability (per unit time) of a quantum mechanical transition between two quantum states. Although Fermi first coined the term "Golden Rule", Dirac developed most of the machinery.

[math]| M_{i,f}| ^2 = \int \psi_i^{*} H_{pert} \psi_f dv[/math]

where

[math]\psi_i[/math] = initial quantum state of the system
[math]\phi_f[/math] = final quantum state of system after a transition
[math]H_{pert}[/math] = part of the Hamiltonian which is responsible for the transition.
[math]H_0[/math] = Unperturbed ("steady state") Hamiltonian
[math]H_{tot} = H_0 + H_{pert}[/math] = total hamiltonian describing the quantum mechanical system
[math]dv[/math] integration over all space
Retrieved from "https://wiki.iac.isu.edu/index.php?title=Forest_FermiGoldenRule_Notes&oldid=24619"