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【期刊论文】Mechanisms of femtosecond laser-induced damage in magnesium fluoride
贾天卿, Haiyi Suna, *, Tianqing Jiaa, b, Chengbin Lia, Xiaoxi Lia, Shizhen Xua, Donghai Fenga, Xiaofeng Wanga, Xiaochun Gea, Zhizhan Xua
Solid State Communications 141 (2007) 127-131,-0001,():
-1年11月30日
We studied the single-shot damage in magnesium fluoride irradiated by 800 nm femtosecond (fs) laser. The dependence of damage thresholds on the laser pulse durations from 60 to 750 fs was measured. The pump-probe measurements were carried out to investigate the time-resolved electronic excitation processes. A coupled dynamic model was applied to study the microprocesses in the interaction between fs laser and magnesium fluoride. The results indicate that both multiphoton ionization and avalanche ionization play important roles in the femtosecond laser-induced damage in MgF2.
A., Magnesium fluoride, D., Damage mechanisms, E., Femtosecond laser, E., Pump–probe measurements
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【期刊论文】Mechanisms of femtosecond laser-induced breakdown and damage in MgO
贾天卿, S.Z. Xu a, *, T.Q. Jia a, b, H.Y. Sun a, C.B. Li a, X.X. Li a, D.H. Feng a, J.R. Qiu a, Z.Z. Xu a
Optics Communications 259 (2006)274-280,-0001,():
-1年11月30日
Single-shot laser damage threshold of MgO for 40-986 fs, 800 nm laser pulses is reported. The pump-probe measurements with femtosecond pulses were carried out to investigate the time-resolved electronic excitation processes. A theoretical model including conduction band electrons (CBE) production and laser energy deposition was applied to discuss the roles of multiphoton ionization (MPI) and avalanche ionization in femtosecond laser-induced dielectric breakdown. The results indicate that avalanche ionization plays the dominant role in the femtosecond laser-induced breakdown in MgO near the damage threshold.
Avalanche ionization, Laser-induced breakdown, Femtosecond laser, Time-resolved dynamics, MgO
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【期刊论文】Mechanisms in fs-laser ablation in fused silica
贾天卿, T.Q. Jia a), Z.Z. Xu, R.X. Li, D.H. Feng, X.X. Li, C.F. Cheng, and H.Y. Sun, N.S. Xu and H.Z. Wang
,-0001,():
-1年11月30日
A theoretical model is proposed to describe the microscopic processes involved in the ablation in fused silica induced by femtosecond-laser pulse. Conduction-band electron (CBE) can absorb laser energy, the rate is calculated by quantum mechanical method and classical method. CBE is produced via photoionization (PI) and impact ionization (II). The PI and II rates are calculated by using the Keldysh theory and double-flux model, respectively. Besides the CBE production, we investigate laser energy deposition and its distribution. The equation of energy diffusion in physical space is resolved numerically. Taking energy density Edep=54 kJ/cm3 as the criterion, we calculate damage threshold, ablation depth, and ablation volumes. It is found that if energy diffusion is considered, energy density near sample surface is reduced to 1/10, damage threshold is enhanced more than 30%, ablation depth is increased by a factor of 10. Our theoretical results agree well with experimental measurements. Several ultrafast phenomena in fused silica are also discussed.
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【期刊论文】Incoherent subharmonic light scattering in isotropic media
贾天卿, D.H. Feng∗, Z.Z. Xu, X.L. Feng, T.Q. Jia, X.X. Li, J.S. Liu
Spectrochimica Acta Part A 61 (2005) 575-578,-0001,():
-1年11月30日
Incoherent subharmonic light scattering in isotropic media is a new kind of nonlinear light scattering, which involves single input photon and multiple output photons of equal frequency. We investigate theoretically the dependence of the subharmonic scattering intensity on the hyperpolarizability of molecules and the incident intensity using nonlinear optics theory similar to that used for Hyper-Rayleigh scattering and degenerate optical parametric oscillators. It is derived that the subharmonic scattering intensities grow exponentially or superexponentially with the hyperpolarizability of molecules and the incident intensity.
Subharmonic scattering, Isotropic media, Nonlinear optics
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贾天卿, T.Q. Jia, H.X. Chen, M. Huang, and F.L. Zhao, J.R. Qiu, R.X. Li, and Z.Z. Xu, X.K. He, J. Zhang, and H. Kuroda
,-0001,():
-1年11月30日
Two collinear femtosecond laser pulses, one at wavelength of 800nm and the other at 400nm (double frequency), simultaneously irradiated the surface of ZnSe crystal, which resulted in regular nanograting with period of 180 nm on the whole ablation area. We attribute the formation of the nanograting to be due to the interference between the surface scattered wave of 800 nm lasers and the 400nm light. The period of the nanograting is aboutλ/2n, where n is refractive index of the sample, andλ, the laser wavelength. This mechanism is supported by observation of rotation of the nanograting with the polarization of 400nm light, and by the dependence of λ of the nanoripples on the surface of semiconductors and dielectrics.
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