Chuan Yu scite author profile

We find that a donor-doped band-gap material can enhance the overall high-order harmonic generation (HHG) efficiency by several orders of magnitude, compared with undoped and acceptordoped materials. This significant enhancement, predicted by time-dependent density functional theory simulations, originates from the highest occupied impurity state which has an isolated energy located within the band gap. The impurity-state HHG is rationalized by a three-step model, taking into account that the impurity-state electron tunnels into the conduction band and then moves according to its band structure until recombination. In addition to the improvement of the HHG efficiency, the donor-type doping results in a harmonic cutoff different from that in the undoped and acceptor-doped cases, explained by semiclassical analysis for the impurity-state HHG.

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Subradiant bound dimer excited states of emitter chains coupled to a one dimensional waveguide

Zhang

Mølmer

2020

Phys. Rev. Research

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We show that chains of atoms coupled to a 1D waveguide support states with two excitations that have longer lifetimes than the most subradiant states with only a single excitation. These excitations form spatially correlated dimers where one excited atom effectively constitutes a defect (a site blocking further excitation) and establishes a localized mode for the other excitation. We investigate the properties of the dimer states, and we show that our results apply also to chains of atoms coupled to the free electromagnetic vacuum field in three dimensions.

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High-order harmonic generation in imperfect crystals

Hansen

Madsen

2019

Phys. Rev. A

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High-order harmonic generation (HHG) in imperfect crystals, where the disorder is modeled by random shifts of the ionic positions, is studied using time-dependent density-functional theory. When irradiated by midinfrared laser pulses, the disorder-free system produces HHG spectra with two plateaus. Compared with the disorder-free system, disordered systems are found to emit suppressed harmonics in the first plateau region and enhanced harmonics in the second plateau region. The suppression of harmonics in the first plateau becomes less pronounced when decreasing the displacement of the nuclei, while the enhancement in the second plateau region is insensitive to the range of the ionic displacement. We have confirmed these findings for many different disordered sample systems and for different laser field strengths. The increase of the HHG signals in the second plateau region is proposed to stem from a change of the dynamics in the system, evidenced by the transition matrix elements between the field-free Kohn-Sham orbitals. In addition, a time-frequency profile of HHG spectra shows that the emission of harmonics is less regular in the time domain for a disordered system than for the disorder-free system.

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Dynamic Stark effect and interference photoelectron spectra of H2+

et al. 2013

Phys. Rev. A

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Dynamic Stark effect on XUV-laser-generated photoelectron spectra: Numerical experiment on atomic hydrogen

Zhang

et al. 2013

Phys. Rev. A

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Chuan Yu

Enhanced high-order harmonic generation in donor-doped band-gap materials

Subradiant bound dimer excited states of emitter chains coupled to a one dimensional waveguide

High-order harmonic generation in imperfect crystals

Dynamic Stark effect and interference photoelectron spectra of H2+

Dynamic Stark effect on XUV-laser-generated photoelectron spectra: Numerical experiment on atomic hydrogen

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