Dynamics of frustrated tunneling ionization driven by inhomogeneous laser fields

We theoretically investigated frustrated tunneling ionization (FTI) driven by spatially inhomogeneous strong laser fields induced by surface plasmon resonance within a bow-tie metal nanostructure. The results show that the FTI probability and the principal quantum number distribution exhibit similar...

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Published inNew journal of physics Vol. 24; no. 12; pp. 123043 - 123053
Main Authors Xu, Jingkun, Zhou, Yueming, Li, Yingbin, Liu, Aihua, Chen, Yongkun, Ma, Xiaomeng, Huang, Xiang, Liu, Kunlong, Zhang, Qingbin, Li, Min, Yu, Benhai, Lu, Peixiang
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.12.2022
Subjects
Amplitudes
Angular momentum
Defocusing
Electric fields
Energy
frustrated tunneling ionization
Inhomogeneity
Ionization
Knobs
Laboratories
Lasers
Nanostructure
Optics
Physics
Propagation
Pulse duration
Rydberg states
Spatial distribution
spatially inhomogeneous laser pulses
strong-field physics
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Abstract We theoretically investigated frustrated tunneling ionization (FTI) driven by spatially inhomogeneous strong laser fields induced by surface plasmon resonance within a bow-tie metal nanostructure. The results show that the FTI probability and the principal quantum number distribution exhibit similar oscillatory behavior as a function of the pulse duration. Our analysis reveals that the periodic defocusing and refocusing of the electron spatial distribution due to the inhomogeneous laser field is responsible for the oscillatory structures. In addition, the initial tunneling coordinates and the angular momentum distributions of the FTI events and theirs pulse duration dependence are also explored. Moreover, our results show that the frequency of the oscillatory structures depends sensitively on the electron quiver amplitude and the inhomogeneity strength. Thus, the electron quiver amplitude and the size of the gap between bow-tie nanostructure are useful and efficient knobs for controlling the yield and properties of exited Rydberg states.
AbstractList We theoretically investigated frustrated tunneling ionization (FTI) driven by spatially inhomogeneous strong laser fields induced by surface plasmon resonance within a bow-tie metal nanostructure. The results show that the FTI probability and the principal quantum number distribution exhibit similar oscillatory behavior as a function of the pulse duration. Our analysis reveals that the periodic defocusing and refocusing of the electron spatial distribution due to the inhomogeneous laser field is responsible for the oscillatory structures. In addition, the initial tunneling coordinates and the angular momentum distributions of the FTI events and theirs pulse duration dependence are also explored. Moreover, our results show that the frequency of the oscillatory structures depends sensitively on the electron quiver amplitude and the inhomogeneity strength. Thus, the electron quiver amplitude and the size of the gap between bow-tie nanostructure are useful and efficient knobs for controlling the yield and properties of exited Rydberg states.
Author Li, Min
Xu, Jingkun
Zhou, Yueming
Ma, Xiaomeng
Zhang, Qingbin
Chen, Yongkun
Yu, Benhai
Liu, Aihua
Liu, Kunlong
Li, Yingbin
Lu, Peixiang
Huang, Xiang
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Snippet We theoretically investigated frustrated tunneling ionization (FTI) driven by spatially inhomogeneous strong laser fields induced by surface plasmon resonance...
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SubjectTerms Amplitudes
Angular momentum
Defocusing
Electric fields
Energy
frustrated tunneling ionization
Inhomogeneity
Ionization
Knobs
Laboratories
Lasers
Nanostructure
Optics
Physics
Propagation
Pulse duration
Rydberg states
Spatial distribution
spatially inhomogeneous laser pulses
strong-field physics
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Title Dynamics of frustrated tunneling ionization driven by inhomogeneous laser fields
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