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Advanced Physics Homework Help
Laser Modes & Spectral Hole Burning
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[QUOTE="SSJVegetto, post: 3244178, member: 277591"] [h2]Homework Statement [/h2] Reflection at a surface takes place under the condition that the field amplitude is zero at the reflecting surface. As a result, the axial modes i of wavelength λi inside a laser cavity can be defined by their number ni of sine-wave half cycles that fit exactly into the laser cavity. The optical gain curve of the active medium of a crystalline solid-state laser has a wavelength range of typically 10-100 nm, so that many (~104) axial modes inside a few-cm long cavity fall within the optical gain curve and may therefore start lasing. a) Explain why nevertheless only one axial mode starts lasing in a homogeneously broadened gain medium at pump threshold. b) Explain the phenomenon of "spectral hole burning". [h2]Homework Equations[/h2] [h2]The Attempt at a Solution[/h2] a. I'm assuming that only one axial mode starts lasing because in a homogeously broadened gain medium at pump threshold the gain overcomes losses only for the central mode. Since the whole gain curve remains the same for higher values of the pump rate. Thus the gain of other modes will always remain smaller than the gain of the central mode and thus only one mode starts lasing. I'm wondering if this is a good explanation and can someone please tell me why this is true why it doesn't change and why does it change for inhomogeneously broeadened gain medium? b. Spectral hole burning can only occur when an inhomogenously broadened gain medium is used. Here the gain curve can change and overcome losses for other modes as well which, when overcoming threshold and thus losses, is clamped to the threshold value and thus this creates holes in the gain medium because the gain is already used for a mode and thus in the gain medium a spectral hole is present for which no gain is present and hence a spectral hole is burned. Would this be a correct answer as well? If i miss anything please help?! [/QUOTE]
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