m (Created page with "= Resonance Fluorescence = '''''Resonance Fluorescence''''' is the incoherent light emission (''fluorescence'') from a system that is being excited at the same frequency than...") |
m (→Resonance Fluorescence) |
||
Line 7: | Line 7: | ||
* [[Asymmetries in Resonance Fluorescence]] — The power spectrum exhibit peculiar symmetrise, which can be broken in a variety of ways. | * [[Asymmetries in Resonance Fluorescence]] — The power spectrum exhibit peculiar symmetrise, which can be broken in a variety of ways. | ||
* [[Transients in Resonance Fluorescence]] — Phenomena that occur before the steady state is established. | * [[Transients in Resonance Fluorescence]] — Phenomena that occur before the steady state is established. | ||
+ | |||
+ | == Simplest as possible, not simpler == | ||
+ | |||
+ | The problem is particularly attractive because it is probably the simplest possible, yet highly nontrivial, quantum-mechanical problem, as it can be described with a two-level system. In the words of [[Kimble]] and [[Mandel]]{{cite|kimble76a}}: | ||
+ | |||
+ | <center><wz tip="Robbing some physical attributes.">[[File:Screenshot_20230816_175004.png|400px]]</wz></center> | ||
== Description == | == Description == |
Resonance Fluorescence is the incoherent light emission (fluorescence) from a system that is being excited at the same frequency than the one at which it naturally emits (resonance).
It is a fundamental problem of great interest to us, for which we are trying to establish a comprehensive timeline. We have been particularly interested in the following aspects of the problem:
The problem is particularly attractive because it is probably the simplest possible, yet highly nontrivial, quantum-mechanical problem, as it can be described with a two-level system. In the words of Kimble and Mandel[1]:
Here are how various people have described the process:
The phenomenon of resonance fluorescence arises with the illumination of an atomic dipole transition by resonant radiation and appears as scattering from the incident beam into other modes of the radiation field.
Cite error: <ref>
tags exist, but no <references/>
tag was found