2015
DOI: 10.1007/s00340-015-6137-6
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Passively Q-switched 1617-nm polycrystalline ceramic Er:YAG laser using a Cr:ZnSe saturable absorber

Abstract: methane in the atmosphere, the 1617-nm transition is more promising for applications which need long-distance propagation in free space than the 1645-nm transition [2,3].YAG crystal is used as the most common laser gain host because of its unique thermomechanical properties. Er:YAG crystal lasers have been demonstrated both in continuous-wave and Q-switched modes [1][2][3][4][5]. In 2007, a single-crystal Er:YAG which yielded a continuous-wave (CW) output power of 31 W was demonstrated at 1617 nm with a slope … Show more

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Cited by 11 publications
(9 citation statements)
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“…This can be ascribed to the sp 3 CS bond between the RGO and SnS 2 nanosheet. [30,31] The new CS bonds can also be demonstrated by band at higher binding energy of S 2p observed in SnS 2 , and these results are consistent with FTIR analyses. [32] Figure 3e shows the highresolution Sn3d spectrum of samples SnS 2 and SnS 2 /RGO.…”
Section: Characterization Of Sns 2 /Rgo Anodesupporting
confidence: 79%
See 1 more Smart Citation
“…This can be ascribed to the sp 3 CS bond between the RGO and SnS 2 nanosheet. [30,31] The new CS bonds can also be demonstrated by band at higher binding energy of S 2p observed in SnS 2 , and these results are consistent with FTIR analyses. [32] Figure 3e shows the highresolution Sn3d spectrum of samples SnS 2 and SnS 2 /RGO.…”
Section: Characterization Of Sns 2 /Rgo Anodesupporting
confidence: 79%
“…However, the XPS peaks of S 2p in the SnS 2 /RGO shifted to higher binding-energy region compared to the pure phase of SnS 2 , and this result may be ascribed to the CS bound in composites. [31] Taken in consideration of Sn 3d band of SnS 2 which was also found to shift to higher binding-energy side ≈0.4 eV with respect to SnS 2 /RGO (Figure 3e), the phenomenon can be explained by electron transfer between SnS 2 and RGO nanosheets because of their different electron concentrations. [34] Therefore, the bonding Adv.…”
Section: Characterization Of Sns 2 /Rgo Anodementioning
confidence: 86%
“…SnS 2 nanosheets were prepared according to a process reported with some modifications. [57] In a typical experiment, SnCl 4 and thioacetamide (TAA) at a molar ratio of SnCl 4 :TAA = 1:3 were mixed and dissolved in 70 mL distilled water under vigorous stirring to form a homogeneous solution at room temperature. Subsequently, the obtained solution was transferred to a Teflon-lined stainless-steel autoclave, which was subjected to reaction at 463 K for 6 h. Finally, the resultant was collected by centrifugation, washed with water and ethanol several times, and dried at 60 °C for 12 h for further characterization and synthesis of N-CQDs/SnS 2 catalysts.…”
Section: Methodsmentioning
confidence: 99%
“…Besides, the intensity‐average lifetime (<τ>) of the emission decay is also calculated and found to be 5.32 ns and 1.04 ns for GCN and CD 7 /GCN, respectively. The chance of a non‐radiative pathway from the electronic interaction between the carbon dots and the GCN nano sheets could be inferred from the notable decrease in the emission lifetime of the heterojunction . The related electron‐transfer rate constant (k et ) in CD 7 /GCN is calculated to be 7.73 X 10 8 S −1 using Equation …”
Section: Methodsmentioning
confidence: 99%
“…The chance of a non-radiative pathway from the electronic interaction between the carbon dots and the GCN nano sheets could be inferred from the notable decrease in the emission lifetime of the heterojunction. [24] The related electron-transfer rate constant (k et ) in CD 7 /GCN is calculated to be 7.73 X 10 8 S À 1 using Equation (2). [25]…”
mentioning
confidence: 99%