Two series of samples, Nd: KGW (Nd doped gadolinium potassium tungstate) and (Ce,Nd): KGW, were prepared by solid reaction, and excited at 808 nm of wave length by using diode laser device at room temperature. Two ab...Two series of samples, Nd: KGW (Nd doped gadolinium potassium tungstate) and (Ce,Nd): KGW, were prepared by solid reaction, and excited at 808 nm of wave length by using diode laser device at room temperature. Two above conversion fluorescent peaks were observed at 534 nm and 600 nm. The composition and preparation technique of Nd∶KGW luminescent material matrix were investigated, and the mechanism of above conversion luminescence was disscussed. The role of sensitizer (Ce 3+ ) in enhancing luminescence strength was initially studied.展开更多
We present a passively Q-switched Yb:KGW laser based on a transmission-type saturable absorber of topological insulator:Bi2Se3.The saturable absorber is prepared on a 0.17-mm glass substrate and can translate intra-...We present a passively Q-switched Yb:KGW laser based on a transmission-type saturable absorber of topological insulator:Bi2Se3.The saturable absorber is prepared on a 0.17-mm glass substrate and can translate intra-cavity for best performance nearly without influence on the laser mode.At a maximum pump power of 13.7 W,the central wavelength,pulse duration,repetition rate,and pulse energy of Q-switched pulse are 1043 nm,1.5 μs,175.4 kHz,6.39 μJ,respectively.The maximum output power is 1.12 W.To our knowledge,this is the highest average output power from passively Qswitched lasers with topological insulator saturable absorbers.展开更多
In recent years,from the laser experimental study of neodymium doped potassium g adolinium tungstate,i.e.KGd(WO 4) 2 (KGW),laser scientific workers had discove r ed that it has many advantages,as compared to YAG and o...In recent years,from the laser experimental study of neodymium doped potassium g adolinium tungstate,i.e.KGd(WO 4) 2 (KGW),laser scientific workers had discove r ed that it has many advantages,as compared to YAG and other tungstate crystals u n der indentical experimental conditions,such as low lasing threshold,high output energy o r power and high efficiency et al.Especially,as seen on the absorption spectra o f Nd:YAG and Nd:KGW reported by V.Kushawaha et al,a strong and broad absorption line around 808nm is much wider (~12nmFWHM) in Nd:KGW as compared to the Nd:YAG (~1.5nm FWHM),and this wavelength is just during the main peak area emitted by diode laser,so that Nd:KGW may be a excellent candidate for efficient diode pum ping at 808nm.Therefore the research and development of KGW crystals and laser d evices has been bestowed great attention in interational laser science area.For the laser rod with dimensions of 5mm×8mm and 6.3mm×75mm,the xenon flashlamp pumping KGW laser have achieved more laser output and higher efficie n ies than the YAG crystals under identical experimental conditions,by V.Kushawaha et al.In Unite State and K.A.Stankov et al.in Germang respectively.展开更多
We demonstrate a continuous-wave(CW)Nd:YVO_(4)-potassium gadolinium tungstate(KGW)intracavity Raman laser with a diode-to-Stokes optical efficiency of 34.2%.By optimizing the cavity arrangement and reducing the cavity...We demonstrate a continuous-wave(CW)Nd:YVO_(4)-potassium gadolinium tungstate(KGW)intracavity Raman laser with a diode-to-Stokes optical efficiency of 34.2%.By optimizing the cavity arrangement and reducing the cavity losses,8.47 W Stokes output at 1177 nm was obtained under an incident 878.6 nm diode pump power of 24.8 W.The influence of cavity losses on the power and efficiency of the CW Raman laser,as well as the potential for further optimization,was investigated based on the numerical model.The observation of thermally-induced output rollover was well explained by the calculation of the thermal lensing and cavity stability,indicating that the end-face curvature played an important role when the end-face of the crystal was highly reflective coated to make the cavity.A 10.9 W Stokes output under 40.9 W incident pump was also demonstrated with a cavity arrangement less sensitive to the end-face curvature,which is the highest output power of CW intracavity Raman lasers reported.展开更多
文摘Two series of samples, Nd: KGW (Nd doped gadolinium potassium tungstate) and (Ce,Nd): KGW, were prepared by solid reaction, and excited at 808 nm of wave length by using diode laser device at room temperature. Two above conversion fluorescent peaks were observed at 534 nm and 600 nm. The composition and preparation technique of Nd∶KGW luminescent material matrix were investigated, and the mechanism of above conversion luminescence was disscussed. The role of sensitizer (Ce 3+ ) in enhancing luminescence strength was initially studied.
基金supported by the National Basic Research Program of China(Grant No.2013CB922404)the National Natural Science Foundation of China(Grant No.61177047)the Beijing Municipal Education Commission Project,China(Grant No.KM201010005007)
文摘We present a passively Q-switched Yb:KGW laser based on a transmission-type saturable absorber of topological insulator:Bi2Se3.The saturable absorber is prepared on a 0.17-mm glass substrate and can translate intra-cavity for best performance nearly without influence on the laser mode.At a maximum pump power of 13.7 W,the central wavelength,pulse duration,repetition rate,and pulse energy of Q-switched pulse are 1043 nm,1.5 μs,175.4 kHz,6.39 μJ,respectively.The maximum output power is 1.12 W.To our knowledge,this is the highest average output power from passively Qswitched lasers with topological insulator saturable absorbers.
文摘In recent years,from the laser experimental study of neodymium doped potassium g adolinium tungstate,i.e.KGd(WO 4) 2 (KGW),laser scientific workers had discove r ed that it has many advantages,as compared to YAG and other tungstate crystals u n der indentical experimental conditions,such as low lasing threshold,high output energy o r power and high efficiency et al.Especially,as seen on the absorption spectra o f Nd:YAG and Nd:KGW reported by V.Kushawaha et al,a strong and broad absorption line around 808nm is much wider (~12nmFWHM) in Nd:KGW as compared to the Nd:YAG (~1.5nm FWHM),and this wavelength is just during the main peak area emitted by diode laser,so that Nd:KGW may be a excellent candidate for efficient diode pum ping at 808nm.Therefore the research and development of KGW crystals and laser d evices has been bestowed great attention in interational laser science area.For the laser rod with dimensions of 5mm×8mm and 6.3mm×75mm,the xenon flashlamp pumping KGW laser have achieved more laser output and higher efficie n ies than the YAG crystals under identical experimental conditions,by V.Kushawaha et al.In Unite State and K.A.Stankov et al.in Germang respectively.
基金This work was supported by the National Natural Science Foundation of China(Nos.61975146,62105240,62075159,and 62275190)the Shandong Province Key R&D Program(Nos.2020CXGC010104 and 2021CXGC010202)the Seed Foundation of Tianjin University(No.2023XPD-0020).
文摘We demonstrate a continuous-wave(CW)Nd:YVO_(4)-potassium gadolinium tungstate(KGW)intracavity Raman laser with a diode-to-Stokes optical efficiency of 34.2%.By optimizing the cavity arrangement and reducing the cavity losses,8.47 W Stokes output at 1177 nm was obtained under an incident 878.6 nm diode pump power of 24.8 W.The influence of cavity losses on the power and efficiency of the CW Raman laser,as well as the potential for further optimization,was investigated based on the numerical model.The observation of thermally-induced output rollover was well explained by the calculation of the thermal lensing and cavity stability,indicating that the end-face curvature played an important role when the end-face of the crystal was highly reflective coated to make the cavity.A 10.9 W Stokes output under 40.9 W incident pump was also demonstrated with a cavity arrangement less sensitive to the end-face curvature,which is the highest output power of CW intracavity Raman lasers reported.