2015
DOI: 10.1364/ol.40.004194
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Growth, spectroscopy, and laser performance of a 279  μm Cr,Er,Pr:GYSGG radiation-resistant crystal

Abstract: We demonstrate the growth, spectroscopy, and laser performance of a 2.79 μm Cr,Er,Pr:GYSGG radiation-resistant crystal. The lifetimes for the upper laser level (4)I(11/2) and lower laser level (4)I(13/2) are 0.59 and 0.84 ms, respectively, which are due to the doping of the Pr(3+) ions. A maximum pulse energy of 278 mJ operated at 10 Hz and 2.79 μm is obtained when pumped with a flash lamp, which corresponds to the electrical-to-optical efficiency of 0.6% and a slope efficiency of 0.7%. A maximum average power… Show more

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Cited by 32 publications
(13 citation statements)
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“…The Cr 3+ and Tm 3+ ions have been chosen as the sensitizer in many Ho 3+ -doped laser crystals and ceramics [16][17][18][19], which can efficiently absorb and transfer the pumping energy to the Ho 3+ activator ions. And the Pr 3+ ions used as the deactivator have acquired good results in decreasing lifetimes of the lower laser energy levels in several crystals, such as Er,Pr:GYSGG [7], Cr,Er,Pr:GYSGG [20], Er,Pr:GGG [21], Ho,Pr:LiLuF 4 [22], and Yb,Ho,Pr:YAP [23] crystals, et al These results provide useful references to utilize the sensitizer of co-doping Cr 3+ and Tm 3+ ions and the deactivator of the Pr 3+ ions for the Ho 3+ ions.…”
Section: Introductionmentioning
confidence: 99%
“…The Cr 3+ and Tm 3+ ions have been chosen as the sensitizer in many Ho 3+ -doped laser crystals and ceramics [16][17][18][19], which can efficiently absorb and transfer the pumping energy to the Ho 3+ activator ions. And the Pr 3+ ions used as the deactivator have acquired good results in decreasing lifetimes of the lower laser energy levels in several crystals, such as Er,Pr:GYSGG [7], Cr,Er,Pr:GYSGG [20], Er,Pr:GGG [21], Ho,Pr:LiLuF 4 [22], and Yb,Ho,Pr:YAP [23] crystals, et al These results provide useful references to utilize the sensitizer of co-doping Cr 3+ and Tm 3+ ions and the deactivator of the Pr 3+ ions for the Ho 3+ ions.…”
Section: Introductionmentioning
confidence: 99%
“…Er 3+ ion based laser materials operating at around 2.8 μm have attracted increasing interest in recent years because of their various important applications1234. Lasers around this specific region can be utilized for medical surgery, dentistry, remote sensing etc, because of the strong water absorption around this spectral region56.…”
mentioning
confidence: 99%
“…However, the drawback of high Er 3+ doping is that the crystal quality and thermal conductivity will degenerate significantly with the increasing of Er 3+ concentration. Co-doping deactivating ions, such as Pr 3+  1679, Nd 3+  210, Ho 3+  11 etc, is another way to overcome this “bottleneck” effect by effectively depopulating the Er 3+ : 4 I 13/2 level, but only a few have achieved laser output. Furthermore, after co-doping deactivating ions the theoretical slope efficiency limit will be lower, because part of the energy of Er 3+ ions is depleted by deactivating ions1213.…”
mentioning
confidence: 99%
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