M. Abdel-Fattah scite author profile

The generation of coherent phonons in polycrystalline bismuth film excited with femtosecond laser pulse is observed by ultrafast time-resolved electron diffraction. The dynamics of the diffracted intensities from the (110), (202), and (024) lattice planes show pronounced oscillations at 130–150 GHz. The origin of these coherent acoustic phonons is discussed in view of optical phonon decay into two acoustic phonons. Different drop times in the intensity of the diffraction orders are observed and interpreted as anisotropy in the energy transfer rate of coherent optical phonons

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Nonuniformity in lattice contraction of bismuth nanoclusters heated near its melting point

Esmail

Abdel-Fattah

Elsayed-Ali

2011

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The structural properties of bismuth nanoclusters were investigated with transmission high-energy electron diffraction from room temperature up to 525 6 6 K. The Bi nanoclusters were fabricated by thermal evaporation at room temperature on transmission electron microscope grids coated with an ultrathin carbon film, followed by thermal and femtosecond laser annealing. The annealed sample had an average cluster size of $14 nm along the minor axis and $16 nm along the major axis. The Debye temperature of the annealed nanoclusters was found to be 53 6 6 K along the [012] direction and 86 6 9 K along the [110] direction. At T ¼ 464 6 6 K, the diffraction intensity started to deviate from Debye-Waller behavior due to increased lattice anharmonicity. The onset of the melting of the Bi nanoclusters was T $ 500 6 6 K, as measured by the reduction of the nanocluster size through the formation of a liquid shell detected by the width of the diffraction rings. The thermal expansion coefficient of the Bi (012) and (110) planes is positive up to $ 499 6 11 K. However, the expansion coefficient of the Bi (012) planes showed a transition from a positive to a negative value that occurs over the temperature range T c $ 499 6 11 K to 511 6 8 K. For the Bi (110) planes, the thermal expansion coefficient is positive up to their melting point, which is 525 6 6 K. V

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Carbon multicharged ions emission from femtosecond laser plume

Balki

Rahman

Abdel-Fattah

et al. 2019

Optics & Laser Technology

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Coherent phonons in polycrystalline bismuth film monitored by ultrafast electron diffraction

Bugayev

Esmail

Abdel-Fattah

et al. 2011

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M. Abdel-Fattah

Focusing limits of intense ultrafast laser pulses in a high pressure gas: road to new spectroscopic source

Coherent phonons in bismuth film observed by ultrafast electron diffraction

Nonuniformity in lattice contraction of bismuth nanoclusters heated near its melting point

Carbon multicharged ions emission from femtosecond laser plume

Coherent phonons in polycrystalline bismuth film monitored by ultrafast electron diffraction

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