排序方式: 共有33条查询结果,搜索用时 62 毫秒
1.
本改进了原有的本征态展开方法。通过从能量E到q=(2E)的平方根的表象变换,不仅准确地计算了在此方法中起重要作用的低能电子布居,而且大幅度地减少了计算时间。利用这个高效的方法,我们计算了在强激光作用下一个模型原子的高次谐波发射谱。 相似文献
2.
本文提出了一个一维μ介子原子模型,用数值积分方法求解了在超强激光场作用下该模型原子的含时Schrdinger方程,得到了它的高次谐波发射谱.该谱表明,借助于这一奇异原子模型,可将相干辐射由XUV波段推向γ-射线波段.针对这个体系的高次谐波发射效率低的缺点,引入双色场后使发射效率提高了两个数量级. 相似文献
3.
本文改进了原有的本征态展开方法.通过从能量E到q=( )2E的表象变换,不仅准确地计算了在此方法中起重要作用的低能电子布居,而且大幅度地减少了计算时间.利用这个高效的方法,我们计算了在强激光作用下一个模型原子的高次谐波发射谱. 相似文献
4.
Tunable spectral shift of high-order harmonic generation in atoms using a sinusoidally phase-modulated pulse 下载免费PDF全文
High-order harmonic generation (HHG) from an atom illuminated by a sinusoidally phase-modulated pulse is investigated by solving the time-dependent Schrödinger equation. The spectral shift that occurs in atomic HHG can be achieved easily using our laser pulse. It is shown that the photon energy of the generated harmonics is controllable within the range of 1 eV. The shift of the frequency peak position is rooted in the asymmetry of the rising and falling parts of the laser pulse. We also show that by varying the phase parameters in the frequency domain of the laser one can adjust and control the shift in atomic harmonic spectra. 相似文献
5.
Simultaneous study of the lower order harmonic and photoelectron emission from an atom in intense laser pulse 下载免费PDF全文
We simultaneously investigate variations of a low order harmonic and photoelectron emission with an incident laser intensity by solving the time-dependent Schr o¨dinger equation in a momentum space. It can be found that, the intensity of low order harmonic and photoelectron are gradually enhanced with the increase of the laser intensity, when the laser frequency is not in resonance with the transition frequency between the laser-induced high excited states and the ground state. If the resonance occurs, the intensity of the lower order harmonic is reduced and the interference can be observed in the lower order photoelectron spectra. 相似文献
6.
Simultaneous Extension and Enhancement of the HHG Plateau by Using Combined Lasers Irradiating on a United Two-Atom System 总被引:4,自引:0,他引:4 下载免费PDF全文
We present the high-order harmonic generation spectrum from a united two-atom system simultaneously exposed to a fundamental Ti:sapphire and its 33rd harmonic (H33) lasers by numerically solving a one-dimensional timedependent Schroedinger equation. At a suitable inter-nuclear separation, the harmonic plateau is widened from Ip 3.2Up in the single-atom case up to Ip 5.6Up in the united-atom case. Furthermore, the plateau is heightened in excess of six orders of magnitude by using the combined lasers compared with the case of the fundamental laser alone. Such a scheme can step by step accomplish the following processes: through a single H33 photon resonance transition an appropriate amount of electrons are first populated to an excited state, in which the electrons are easily ionized and subsequently accelerated by the fundamental laser; then they can recombine with the neighbouring atom, so that high-efficiency emissions of the harmonics beyond Ip 3.2Up are successfully realized. 相似文献
7.
通过对影响谐波转化效率因素的分析,提出选择适宜的靶原子对象,即选择在高能区具有较强连续态-基态耦合强度的靶原子,可以优化高次谐波的发射条件.本文的数值实验结果表明,利用该方案,可以把平台区尾部谐波的转化效率提高两个数量级. 相似文献
8.
Using the time-dependent pseudo-spectral scheme, we solve the time-dependent Schr ¨odinger equation of a hydrogenlike atom in a strong laser field in momentum space. The intensity-resolved photoelectron energy spectrum in abovethreshold ionization is obtained and further analyzed. We find that with the increase of the laser intensity, the abovethreshold ionization emission spectrum exhibits periodic resonance structure. By analyzing the population of atomic bound states, we find that it is the multi-photon excitation of bound state that leads to the occurrence of this phenomenon, which is in fairly good agreement with the experimental results. 相似文献
9.
We systematically investigate the influence of atomic potentials on the above-threshold ionization (ATI) spectra in one-dimensional (1D) cases and compare them with the three-dimensional (3D) case by numerically solving the time-dependent Schrrdinger equation. It is found that the direct ionization plateau and the rescattering plateau of the ATI spectrum in the 3D case can be well reproduced by the 1D ATI spectra calculated from the supersolid-core potential and the soft-core potential, respectively. By analyzing the factors that affect the yield of the ATI spectrum, we propose a modified-potential with which we can reproduce the overall 3D ATI spectrum. In addition, the influence of the incident laser intensities and frequencies on the ATI spectra calculated from the proposed modified potential is studied. 相似文献
10.