The largest exponential gain coefficient(Γ=250 cm^(-1)),to our knowledge,is obtained in thin(d=0.20mm)iron-doped LiNbO_(3) crystal.The dependence of two-beam coupling coefficients on beam crossing angle are measured ...The largest exponential gain coefficient(Γ=250 cm^(-1)),to our knowledge,is obtained in thin(d=0.20mm)iron-doped LiNbO_(3) crystal.The dependence of two-beam coupling coefficients on beam crossing angle are measured and compared in two samples fabricated from the same material with different values of thickness.The explanation based on light climbing effect is given.展开更多
A new scheme of coherent mutually pumped phase conjugate(MPPC)reflection that depends on the formation of self-pumped phase conjugate reflection of another beam has been demonstrated in a Cu:KNSBN crystal.The dependen...A new scheme of coherent mutually pumped phase conjugate(MPPC)reflection that depends on the formation of self-pumped phase conjugate reflection of another beam has been demonstrated in a Cu:KNSBN crystal.The dependences of the MPPC reflectivity on the intensity ratio of the two incident beams and on the incident position of the signal beam were measured.We obtain phase conjugate reflectivities of greater than 90%at 488nm.展开更多
文摘The largest exponential gain coefficient(Γ=250 cm^(-1)),to our knowledge,is obtained in thin(d=0.20mm)iron-doped LiNbO_(3) crystal.The dependence of two-beam coupling coefficients on beam crossing angle are measured and compared in two samples fabricated from the same material with different values of thickness.The explanation based on light climbing effect is given.
基金Supported by the Scioice Foundation of the State Education Commission for the Doctoral Program.
文摘A new scheme of coherent mutually pumped phase conjugate(MPPC)reflection that depends on the formation of self-pumped phase conjugate reflection of another beam has been demonstrated in a Cu:KNSBN crystal.The dependences of the MPPC reflectivity on the intensity ratio of the two incident beams and on the incident position of the signal beam were measured.We obtain phase conjugate reflectivities of greater than 90%at 488nm.