Sankar De scite author profile

We report the first experimental observation of nonadiabatic field-free orientation of a heteronuclear diatomic molecule (CO) induced by an intense two-color (800 and 400 nm) femtosecond laser field. We monitor orientation by measuring fragment ion angular distributions after Coulomb explosion with an 800 nm pulse. The orientation of the molecules is controlled by the relative phase of the two-color field. The results are compared to quantum mechanical rigid rotor calculations. The demonstrated method can be applied to study molecular frame dynamics under field-free conditions in conjunction with a variety of spectroscopy methods, such as high-harmonic generation, electron diffraction, and molecular frame photoelectron emission.

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Ion-Energy Dependence of Asymmetric Dissociation ofD2by a Two-Color Laser Field

Ray

et al. 2009

Phys. Rev. Lett.

156

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Two-color (800 and 400 nm) short (45 fs) linearly polarized pulses are used to ionize and dissociate D2 into a neutral deuterium atom and a deuteron. The yields and energies of the ions are measured left and right along the polarization vector. As the relative phase of the two colors is varied, strong yield asymmetries are found in the ion-energy regions traditionally identified as bond softening, above-threshold dissociation and rescattering. The asymmetries in these regions are quite different. A model based on the dynamic coupling by the laser field of the gerade and ungerade states in the molecular ion accounts for many of the observed features.

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Orientation dependence of the ionization of CO and NO in an intense femtosecond two-color laser field

Ray

et al. 2011

Phys. Rev. A

116

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Two-color (800-and 400-nm) short (45-fs) linearly polarized pulses are used to ionize and dissociate CO and NO. The emission of C q + , N q + , and O + fragments indicates that the higher ionization rate occurs when the peak electric field points from C to O in CO and from N to O in NO. This preferred direction is in agreement with that predicted by Stark-corrected strong-field-approximation calculations.

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Ultrafast Charge Rearrangement and Nuclear Dynamics upon Inner-Shell Multiple Ionization of Small Polyatomic Molecules

et al. 2013

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Ionization and fragmentation of methylselenol (CH 3 SeH) molecules by intense (> 10 17 W=cm 2 ) 5 fs x-ray pulses (@! ¼ 2 keV) are studied by coincident ion momentum spectroscopy. We contrast the measured charge state distribution with data on atomic Kr, determine kinetic energies of resulting ionic fragments, and compare them to the outcome of a Coulomb explosion model. We find signatures of ultrafast charge redistribution from the inner-shell ionized Se atom to its molecular partners, and observe significant displacement of the atomic constituents in the course of multiple ionization.

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Following dynamic nuclear wave packets in N2,O2, and CO with few-cycle infrared pulses

Magrakvelidze

Bocharova

et al. 2011

Phys. Rev. A

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Abstract:We study the evolution of nuclear wave packets launched in molecular nitrogen, oxygen and carbon monoxide by intense 8fs infrared pulses.We use velocity map imaging to measure the momentum of the ion fragments when these wave packets are interrogated by a second such pulse after a variable time delay. Both quasi-bound and dissociative wave packets are observed. For the former, measurements of bound-state oscillations are used to identify the participating states and in some cases extract properties of the relevant potential energy surfaces. Vibrational structure is resolved in both energy and oscillation-frequency for the cations of oxygen and carbon monoxide, displaying the same quantum wave packet motion in both energy and time domains. In addition, vibrational structure is seen in the dication of carbon 2 monoxide in a situation where the energy resolution by itself is inadequate to resolve the structure.

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Control of Electron Localization in Deuterium Molecular Ions using an Attosecond Pulse Train and a Many-Cycle Infrared Pulse

et al. 2010

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We demonstrate an experimental control of electron localization in deuterium molecular ions created and dissociated by the combined action of an attosecond pulse train and a many-cycle infrared (IR) pulse. The attosecond pulse train is synthesized using both even and odd high order harmonics of the driving IR frequency so that it can strobe the IR field once per IR cycle. An asymmetric ejection of the deuterium ions oscillates with the full IR period when the APT-IR time-delay is scanned. The observed control is due to the creation of a coherent superposition of 1s sigma{g} and 2p sigma{u} states via interference between one-photon and two-photon dissociation channels.

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Single-shot carrier-envelope-phase-tagged ion-momentum imaging of nonsequential double ionization of argon in intense 4-fs laser fields

et al. 2011

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Single-shot carrier-envelope-phase (CEP) tagging is combined with a reaction mircoscope (REMI) to investigate CEP-dependent processes in atoms. Excellent experimental stability and data acquisition longevity are achieved. Using this approach, we study the CEP effects for nonsequential double ionization of argon in 4-fs laser fields at 750 nm and an intensity of 1.6 × 10 14 W/cm 2 . The Ar 2+ ionization yield shows a pronounced CEP dependence which compares well with recent theoretical predictions employing quantitative rescattering theory [S. Micheau et al., Phys. Rev. A 79, 013417 (2009)]. Furthermore, we find strong CEP influences on the Ar 2+ momentum spectra along the laser polarization axis.

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IR-assisted ionization of helium by attosecond extreme ultraviolet radiation

et al. 2010

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Sankar De

Field-Free Orientation of CO Molecules by Femtosecond Two-Color Laser Fields

Ion-Energy Dependence of Asymmetric Dissociation ofD2by a Two-Color Laser Field

Orientation dependence of the ionization of CO and NO in an intense femtosecond two-color laser field

Ultrafast Charge Rearrangement and Nuclear Dynamics upon Inner-Shell Multiple Ionization of Small Polyatomic Molecules

Following dynamic nuclear wave packets in N2,O2, and CO with few-cycle infrared pulses

Control of Electron Localization in Deuterium Molecular Ions using an Attosecond Pulse Train and a Many-Cycle Infrared Pulse

Single-shot carrier-envelope-phase-tagged ion-momentum imaging of nonsequential double ionization of argon in intense 4-fs laser fields

IR-assisted ionization of helium by attosecond extreme ultraviolet radiation

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