利用近红外啁啾脉冲调节连续谐波的产生

Cam-Tu Le, N. Phan, DinhDuy Vu, C. Ngo, Van-Hoang Le
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摘要

众所周知,连续谱谐波的宽带,即规则的周期性或宽的平滑范围,对于产生阿秒脉冲是必不可少的。然而,电子的高次重散射(HOR)会对高次谐波谱的这一重要部分产生显著影响。在本研究中,我们采用了之前研究中提出的方法,通过使用频率随时间增加的上啁啾脉冲来调节CO等不对称分子在近红外激光作用下的高次谐波产生,从而限制了连续统谐波的HOR效应。为此,我们利用在单活性电子近似框架内获得的时变波函数数值计算高次谐波谱。为了分析和调节HOR效应,我们采用时频分析和由激光电场中的电子运动方程得到的动能图。这些技术揭示了高次谐波动力学,特别是啁啾脉冲对连续谐波表现的影响。在此基础上,我们发布了关于选择合适的参数以获得最佳谐波连续范围的通知。虽然对CO分子给出了详细的分析,但所提出的方法也适用于其他极性分子。
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Regulation of Continuum Harmonic Generation by Using Near-infrared Chirped Pulses
It has been known that the broadband of continuum harmonics, a regular periodicity or a wide smooth range, is essential for generating attosecond pulses. However, the high-order rescatterings of electrons (HOR) can significantly affect this important part of high-order harmonic spectra. In the present work, we apply the method suggested in our previous studies to limit the HOR effect on the continuum harmonics by using up-chirped pulses with frequency increasing in time to regulate the high-order harmonic generation of an asymmetric molecule such as CO subjected to a near-infrared laser. To do so, we numerically calculate the high-order harmonic spectra using the time-dependent wave functions obtained within the framework of the single-active electron approximation. To analyze and regulate the HOR effect, we use the time-frequency analysis together with the kinetic energy maps obtained from the equation of electron motion in the laser electric field. These techniques reveal the high-order harmonic dynamics, especially the effect of chirped pulse on the manifestation of continuum harmonics. Based on this, we release the notice on choosing appropriate parameters to obtain the optimal continuum range of harmonics. Although the detailed analysis is given for the CO molecule, the method suggested is applicable for other polar molecules.
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