2016
DOI: 10.1103/physreva.94.013408
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Multistart spiral electron vortices in ionization by circularly polarized UV pulses

Abstract: Multistart spiral vortex patterns are predicted for the electron momentum distributions in the polarization plane following ionization of the helium atom by two time-delayed circularly polarized ultrashort laser pulses. For two ultraviolet (UV) pulses having the same frequency (such that two photons are required for ionization), single-color two-photon interferometry with corotating or counter-rotating time-delayed pulses is found to lead respectively to zero-start or four-start spiral vortex patterns in the i… Show more

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Cited by 95 publications
(94 citation statements)
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“…Our predictions stem from kinematic factors and are thus applicable to singleionization processes for any target system, as demonstrated recently by Yuan et al [47] for odd-start electron vortices in two-color single ionization of the H + 2 molecule. Very recently, our predicted spiral electron vortices [44,45] were experimentally observed in multiphoton single ionization of potassium atoms by a pair of time-delayed oppositely circularly polarized fs pulses [48]. For two-color, circularly polarized pulses having zero time delay, our predictions [45] are consistent with results for two-color single ionization of Ar [49] and H [50] atoms.…”
Section: Introductionsupporting
confidence: 86%
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“…Our predictions stem from kinematic factors and are thus applicable to singleionization processes for any target system, as demonstrated recently by Yuan et al [47] for odd-start electron vortices in two-color single ionization of the H + 2 molecule. Very recently, our predicted spiral electron vortices [44,45] were experimentally observed in multiphoton single ionization of potassium atoms by a pair of time-delayed oppositely circularly polarized fs pulses [48]. For two-color, circularly polarized pulses having zero time delay, our predictions [45] are consistent with results for two-color single ionization of Ar [49] and H [50] atoms.…”
Section: Introductionsupporting
confidence: 86%
“…Intriguing electron phenomena were predicted in photoionized electron momentum distributions, including two-start spiral electron vortices in single-electron photoionization by a pair of oppositely circularly polarized attosecond xuv pulses [44] and multistart spiral electron vortices in single-electron multiphoton ionization by two circularly polarized uv pulses [45]. These matter wave spiral patterns require the broad bandwidth characteristic of ultrashort pulses and stem from an unusual kind of Ramsey interference of the single-electron wave packets produced by each of the time-delayed, oppositely circularly polarized pulses.…”
Section: Introductionmentioning
confidence: 99%
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“…Ultrashort bichromatic laser fields have emerged as a new twist to coherently control ultrafast electron dynamics in atoms [1][2][3][4][5][6], molecules [7][8][9] and solids [10][11][12]. In recent years, (ω : 2ω)-fields have been employed in numerous applications to observe and manipulate the motion of electron wave packets on their intrinsic timescales.…”
Section: Introductionmentioning
confidence: 99%