Unidirectional current excitation in tunneling ionization of asymmetric molecules

Alexandrov, L. N.; Emelin, M. Yu.; Ryabikin, M. Yu.

doi:10.1103/physreva.87.013414

Cited by 13 publications

(17 citation statements)

References 31 publications

(44 reference statements)

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“…We measured the positions of the BBO crystal corresponding to a local minimum of the energy of terahertz radiation ("nonoptimal" phase shift), because they can be measured more accurately than the positions corresponding to the maximum. The nonoptimal phase shift is displaced from the opti mal phase shift by π/2 ± πN, where N is an integer [9,10,[19][20][21][22][23][24]. Constraints on the energies of laser pulses in the reported measurements are determined by the sensitivity of the system of detection of terahertz radi ation (at low energies) and by the available energy of laser pulses in this experiment (at high energies).…”

Section: Generation Of Terahertz Radiation At Optical Breakdown Of Airmentioning

confidence: 99%

“…DOI: 10.1134/S0021364015020095 different values of the optimal phase delay between laser radiation at frequencies ω and 2ω [15,16,[19][20][21][22] were obtained. Advanced approaches to the descrip tion of generation of directional currents with allow ance for the Coulomb interaction between a separated electron and the core of an atom or a molecule were proposed in [21][22][23][24]. These approaches make it possi ble to go beyond the strong field approximation and to perform simulation in a wide range of intensities of optical pulses.…”

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confidence: 99%

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Generation of terahertz radiation at optical breakdown of air: The dependence of the optimal phase shift between the components of a two-color laser pulse on their intensity

et al. 2015

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74Terahertz radiation (10 11 -10 13 Hz) is of interest because of its possible application for identification of substances, biomedical diagnostics, tomography, security [1,2], and other problems. Optical methods are now actively used for the generation of terahertz radiation with the use of femtosecond laser pulses. Terahertz radiation generated in such schemes is a subpicosecond pulse with the time dependence of the electric field strength that contains only one or two oscillations and has a very broad spectrum. At the appropriate duration of laser pulses and the method of generation, the useful spectrum of terahertz radiation can cover the frequency range of 100 GHz to 100 THz [3].Converters based on a gas ionized by focused fem tosecond laser pulses are of great interest for optical methods of generation of terahertz radiation. This interest is due both to the absence of phonon absorp tion lines in a plasma, which makes it possible to obtain terahertz radiation with a continuous spectrum in the entire terahertz range, and to the possibility of creation of a remote source and a remote detector of terahertz radiation in the atmosphere, which allows remote studies of various objects in the atmosphere [4]. As was demonstrated experimentally, pulses of ter ahertz radiation can be obtained at focusing of femto second optical pulses in gases by spherical [5, 6] and axicon [7] lenses. The best results were obtained when using spherical lenses and two color optical pulses composed of the first (ω) and second (2ω) harmonics [8]. The two color generation scheme has been actively studied since 2000, when a high efficiency of this generation scheme, as well as the existence of an optimal phase shift between radiation at frequencies ω and 2ω, was demonstrated [9]. It was shown that the maximum efficiency of conversion is achieved with linearly polarized components of a laser pulse at fre quencies ω and 2ω with coinciding polarization planes [10]. The dependences of the parameters of terahertz radiation on the characteristics of focusing lenses were analyzed [11]. The possibility of controlling the orien tation of the polarization of terahertz radiation was demonstrated [12][13][14].One of the first detailed theoretical and experimen tal investigations of the generation of terahertz radia tion in a plasma produced by focused two frequency optical pulses was performed in [15]. A model of the generation of terahertz radiation based on the consid eration of the excitation of a macroscopic residual electron current was proposed in [15,16]. A semiclas sical model was used to calculate a nonlinear current, whose excitation efficiency significantly determines the efficiency of the generation of terahertz radiation. The electron density in this model was determined within the Ammosov-Delone-Krainov theory [17,18], which describes ionization in the tunneling limit, and their trajectories were calculated in the strong field approximation. A clear model proposed in [15,16] provided an explanation of a number of dependences of the char...

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Section: Generation Of Terahertz Radiation At Optical Breakdown Of Airmentioning

confidence: 99%

mentioning

confidence: 99%

Generation of terahertz radiation at optical breakdown of air: The dependence of the optimal phase shift between the components of a two-color laser pulse on their intensity

et al. 2015

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“…[1][2][3][4][5][6][7][8][9] The essence of this phenomenon can be explained as follows. In the process of ionization of atoms and molecules by an intense laser field, the newly born free electrons acquire, along with oscillatory velocity, the constant drift velocity.…”

Section: Introductionmentioning

confidence: 99%

“…5,6 These approaches were used to calculate RCD dependences on CEP, intensity, and duration of the laser pulse. [2][3][4][5][6]8,9 It was shown that the efficiency of RCD excitation depends on the peak intensity of the pulse, and there exists an optimal intensity, whose value depends on the duration of the laser pulse. The RCD value, which corresponds to this optimal intensity, increases exponentially as the duration of the laser pulse decreases, which can be used for generation of high-power THz radiation employing very short laser pulses.…”

Section: Introductionmentioning

confidence: 99%

“…The value of this RCD depends on the carrier-envelope phase (CEP) of the fewcycle laser pulse and can be rather high if the laser pulse is very short. [1][2][3][4][5][6]9 The interest in this phenomenon is connected with the possibility of its application for generation of broadband radiation in the terahertz (THz) range, which is currently a topical problem. [10][11][12][13][14][15][16][17] The residual current is an initial impetus to plasma polarization and excitation of radiating plasma oscillations with THz frequencies in a wide range of gas pressures and laser pulse intensities.…”

Section: Introductionmentioning

confidence: 99%

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Analytical description of generation of the residual current density in the plasma produced by a few-cycle laser pulse

Silaev

Vvedenskii

2015

Phys. Plasmas

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When a gas is ionized by a few-cycle laser pulse, some residual current density (RCD) of free electrons remains in the produced plasma after the passage of the laser pulse. This quasi-dc RCD is an initial impetus to plasma polarization and excitation of the plasma oscillations which can radiate terahertz (THz) waves. In this work, the analytical model for calculation of RCD excited by a fewcycle laser pulse is developed for the first time. The dependences of the RCD on the carrierenvelope phase (CEP), wavelength, duration, and intensity of the laser pulse are derived. It is shown that maximum RCD corresponding to optimal CEP increases with the laser pulse wavelength, which indicates the prospects of using mid-infrared few-cycle laser pulses in the schemes of generation of high-power THz pulses. Analytical formulas for optimal pulse intensity and maximum efficiency of excitation of the RCD are obtained. Basing on numerical solution of the 3D time-dependent Schr€ odinger equation for hydrogen atoms, RCD dependence on CEP is calculated in a wide range of wavelengths. High accuracy of analytical formulas is demonstrated at the laser pulse parameters which correspond to the tunneling regime of ionization. V C 2015 AIP Publishing LLC. [http://dx.

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Quantum-mechanical simulations of low-frequency current excitation during ionization of many-electron atoms by intense laser pulses

2018

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Unidirectional current excitation in tunneling ionization of asymmetric molecules

Cited by 13 publications

References 31 publications

Generation of terahertz radiation at optical breakdown of air: The dependence of the optimal phase shift between the components of a two-color laser pulse on their intensity

Generation of terahertz radiation at optical breakdown of air: The dependence of the optimal phase shift between the components of a two-color laser pulse on their intensity

Analytical description of generation of the residual current density in the plasma produced by a few-cycle laser pulse

Quantum-mechanical simulations of low-frequency current excitation during ionization of many-electron atoms by intense laser pulses

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