摘要
利用 2 5ns脉冲Nd :YAG 5 32nm的激光 ,在 10 11W/cm2 的光场强度下 ,用飞行时间质谱对不同条件下呋喃的激光电离过程进行了研究 .当利用氩作为载气时 ,首次观察到了较强的Cn + (n =2~ 4 )和Om + (m =2~ 3)离子信号 .通过测定峰分裂和数值模拟计算的方法可以确定其中C2 + 、C3 + 和C4+ 的最可几平动能分别为 2 1、6 3和 10 0eV ,O2 + 和O3 + 的最可几平动能分别为 2 0和 4 0eV .质谱峰型的分裂现象和激光延迟实验结果表明 ,这些高价离子可能来源于呋喃团簇的库仑爆炸过程 .
The photoionization of furan by an intense 25 ns Nd:YAG 532 nm laser has been studied by time-of-flight mass spectrometry. At the laser intensity of 10 10~10 11 W/cm2, multi-charged ions C n+(n=2~4) and O m+(m=2~3) appeared in the mass spectra when argon was used as the carrier gas. From the peak splitting and the numerical analysis, the most probable kinetic energies of C 2+, C 3+ and C 4+ were confirmed to be 21? 63 and 100 eV respectively, and the most probable kinetic energies of O 2+ and O 3+ were confirmed to be 20 and 40 eV respectively. It is proposed that the multi-charged ions come from the Coulomb explosion of furan cluster ions produced by multiphoton ionization of neutral furan cluster.
基金
Projectsupportedbythe 86 3Program (2 0 0 1AA6 4 10 4 0
2 0 0 2AA6 4 90 10 )andtheNationalNaturalScienceFoundationofChina (2 0 0 730 4 2 )
关键词
呋喃
库仑爆炸
高价离子
纳秒激光
Furan, Coulomb explosion, Multi-charged ions, Nanosecond laser
