Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures

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Atomic ionization by strong and ultrashort laser pulses with frequencies in the midinfrared spectral region have revealed novel features such as the low-energy structures. We have performed fully three-dimensional quantum dynamical as well as classical trajectory Monte Carlo simulations for pulses w...

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Autores principales: Lemell, C., Burgdörfer, J., Gräfe, S., Dimitriou, K.I., Arbó, D.G., Tong, X.-M.
Formato: JOUR
Materias:
Angular momentum distribution
Atomic ionization
Carrier-envelope phase
Classical trajectory monte carlo
Classical-quantum correspondence
Differential energy
Distorted waves
Interference structures
Ionization dynamics
Long wavelength
Low energy structures
Mid-infrared pulse
Mid-infrared spectral regions
Multiple-peak
Pulse durations
Quantum-classical correspondence
Rich structure
Monte Carlo methods
Ultrashort pulses
Ionization
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_10502947_v87_n1_p_Lemell
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_10502947_v87_n1_p_Lemell2023-10-03T16:00:14Z Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures Lemell, C. Burgdörfer, J. Gräfe, S. Dimitriou, K.I. Arbó, D.G. Tong, X.-M. Angular momentum distribution Atomic ionization Carrier-envelope phase Classical trajectory monte carlo Classical-quantum correspondence Differential energy Distorted waves Interference structures Ionization dynamics Long wavelength Low energy structures Mid-infrared pulse Mid-infrared spectral regions Multiple-peak Pulse durations Quantum-classical correspondence Rich structure Monte Carlo methods Ultrashort pulses Ionization Atomic ionization by strong and ultrashort laser pulses with frequencies in the midinfrared spectral region have revealed novel features such as the low-energy structures. We have performed fully three-dimensional quantum dynamical as well as classical trajectory Monte Carlo simulations for pulses with wavelengths from λ=2000 to 6000 nm. Furthermore, we apply distorted-wave quantum approximations. This allows to explore the quantum-classical correspondence as well as the (non) perturbative character of the ionization dynamics driven by long-wavelength pulses. We observe surprisingly rich structures in the differential energy and angular momentum distribution which sensitively depend on λ, the pulse duration τp, and the carrier-envelope phase PCEP. © 2013 American Physical Society. Fil:Arbó, D.G. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_10502947_v87_n1_p_Lemell
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Angular momentum distribution
Atomic ionization
Carrier-envelope phase
Classical trajectory monte carlo
Classical-quantum correspondence
Differential energy
Distorted waves
Interference structures
Ionization dynamics
Long wavelength
Low energy structures
Mid-infrared pulse
Mid-infrared spectral regions
Multiple-peak
Pulse durations
Quantum-classical correspondence
Rich structure
Monte Carlo methods
Ultrashort pulses
Ionization
spellingShingle Angular momentum distribution
Atomic ionization
Carrier-envelope phase
Classical trajectory monte carlo
Classical-quantum correspondence
Differential energy
Distorted waves
Interference structures
Ionization dynamics
Long wavelength
Low energy structures
Mid-infrared pulse
Mid-infrared spectral regions
Multiple-peak
Pulse durations
Quantum-classical correspondence
Rich structure
Monte Carlo methods
Ultrashort pulses
Ionization
Lemell, C.
Burgdörfer, J.
Gräfe, S.
Dimitriou, K.I.
Arbó, D.G.
Tong, X.-M.
Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
topic_facet Angular momentum distribution
Atomic ionization
Carrier-envelope phase
Classical trajectory monte carlo
Classical-quantum correspondence
Differential energy
Distorted waves
Interference structures
Ionization dynamics
Long wavelength
Low energy structures
Mid-infrared pulse
Mid-infrared spectral regions
Multiple-peak
Pulse durations
Quantum-classical correspondence
Rich structure
Monte Carlo methods
Ultrashort pulses
Ionization
description Atomic ionization by strong and ultrashort laser pulses with frequencies in the midinfrared spectral region have revealed novel features such as the low-energy structures. We have performed fully three-dimensional quantum dynamical as well as classical trajectory Monte Carlo simulations for pulses with wavelengths from λ=2000 to 6000 nm. Furthermore, we apply distorted-wave quantum approximations. This allows to explore the quantum-classical correspondence as well as the (non) perturbative character of the ionization dynamics driven by long-wavelength pulses. We observe surprisingly rich structures in the differential energy and angular momentum distribution which sensitively depend on λ, the pulse duration τp, and the carrier-envelope phase PCEP. © 2013 American Physical Society.
format JOUR
author Lemell, C.
Burgdörfer, J.
Gräfe, S.
Dimitriou, K.I.
Arbó, D.G.
Tong, X.-M.
author_facet Lemell, C.
Burgdörfer, J.
Gräfe, S.
Dimitriou, K.I.
Arbó, D.G.
Tong, X.-M.
author_sort Lemell, C.
title Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
title_short Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
title_full Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
title_fullStr Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
title_full_unstemmed Classical-quantum correspondence in atomic ionization by midinfrared pulses: Multiple peak and interference structures
title_sort classical-quantum correspondence in atomic ionization by midinfrared pulses: multiple peak and interference structures
url http://hdl.handle.net/20.500.12110/paper_10502947_v87_n1_p_Lemell
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AT grafes classicalquantumcorrespondenceinatomicionizationbymidinfraredpulsesmultiplepeakandinterferencestructures
AT dimitriouki classicalquantumcorrespondenceinatomicionizationbymidinfraredpulsesmultiplepeakandinterferencestructures
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AT tongxm classicalquantumcorrespondenceinatomicionizationbymidinfraredpulsesmultiplepeakandinterferencestructures
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