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- The [[rotating wave approximation]] is frequently used in [[quantum optics]], usually to simplify problems in ...m frequency <math>\Sigma:=\omega_L+\omega_0</math> are discarded under the rotating wave approximation because they oscillate much more quickly than terms with the difference fre10 KB (1,685 words) - 12:22, 14 November 2007
- 12 bytes (1 word) - 12:21, 14 November 2007
- 97 bytes (12 words) - 05:11, 4 September 2009
- Auto-populated based on [[Special:WhatLinksHere/Rotating wave approximation]]. Needs checking by a human.476 bytes (61 words) - 20:07, 11 January 2010
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- Auto-populated based on [[Special:WhatLinksHere/Rotating wave approximation]]. Needs checking by a human.476 bytes (61 words) - 20:07, 11 January 2010
- {{r|Rotating wave approximation}}1 KB (141 words) - 11:57, 28 July 2011
- {{r|Rotating wave approximation}}721 bytes (92 words) - 17:54, 11 January 2010
- {{r|Rotating wave approximation}}1 KB (143 words) - 10:13, 9 May 2011
- The [[rotating wave approximation]] is frequently used in [[quantum optics]], usually to simplify problems in ...m frequency <math>\Sigma:=\omega_L+\omega_0</math> are discarded under the rotating wave approximation because they oscillate much more quickly than terms with the difference fre10 KB (1,685 words) - 12:22, 14 November 2007