We present laser results obtained from a Dy3+-Tb3+ co-doped LiLuF4 crystal, pumped by a blue emitting InGaN laser diode, aiming for generation of a compact 578 nm source. We exploit the yellow Dy3+ transition F-4(9/2) double right arrow H-6(13/2) to generate yellow laser emission. The lifetime of the lower laser level is quenched, via energy transfer, to co-doped Tb3+ ions in the fluoride crystal. We report the growth technique, spectroscopic study, and room temperature continuous wave laser results in a hemispherical cavity at 574 nm, and with a highly reflective output coupler at 578 nm. A yellow laser at 578 nm is very relevant for metrological applications, in particular for pumping of the forbidden S-1(0)-P-3(0) ytterbium clock transition, which is recommended as a secondary representation of the second in the international system of units. (C) 2014 Optical Society of America
Yellow laser performance of Dy3+ in co-doped Dy,Tb:LiLuF4
Parisi Daniela;Tonelli Mauro
2014
Abstract
We present laser results obtained from a Dy3+-Tb3+ co-doped LiLuF4 crystal, pumped by a blue emitting InGaN laser diode, aiming for generation of a compact 578 nm source. We exploit the yellow Dy3+ transition F-4(9/2) double right arrow H-6(13/2) to generate yellow laser emission. The lifetime of the lower laser level is quenched, via energy transfer, to co-doped Tb3+ ions in the fluoride crystal. We report the growth technique, spectroscopic study, and room temperature continuous wave laser results in a hemispherical cavity at 574 nm, and with a highly reflective output coupler at 578 nm. A yellow laser at 578 nm is very relevant for metrological applications, in particular for pumping of the forbidden S-1(0)-P-3(0) ytterbium clock transition, which is recommended as a secondary representation of the second in the international system of units. (C) 2014 Optical Society of AmericaI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
