Experimental evidence of periodic alternation of different transverse modes in a high-power CO, laser is interpreted in terms of local cooling of the discharge column, which corresponds to the maximum emitted intensity. Optogalvanic coupling between emitted intensity and local discharge impedance values yields a transverse redistribution of discharge current and, hence, of laser gain. Thus, besides the fast feedback provided by the cavity, with high-power lasers one must account also for a slow global feedback because of the optogalvanic effects.
Pattern competition in a high-power CO2-laser due to optogalvanic modulation of the pump profile
Arecchi F. T.;Boccaletti S.;Ciofini M.;Meucci R.
1994
Abstract
Experimental evidence of periodic alternation of different transverse modes in a high-power CO, laser is interpreted in terms of local cooling of the discharge column, which corresponds to the maximum emitted intensity. Optogalvanic coupling between emitted intensity and local discharge impedance values yields a transverse redistribution of discharge current and, hence, of laser gain. Thus, besides the fast feedback provided by the cavity, with high-power lasers one must account also for a slow global feedback because of the optogalvanic effects.File in questo prodotto:
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Descrizione: Pattern competition in a high-power CO2-laser due to optogalvanic modulation of the pump profile
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