Ralf Nüske scite author profile

Ralf Nüske

5Publications

53Citation Statements Received

135Citation Statements Given

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Lund University

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Transforming graphite to nanoscale diamonds by a femtosecond laser pulse

Nüske

Jurgilaitis

Enquist

et al. 2012

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Formation of cubic diamond from graphite following irradiation by a single, intense, ultra-short laser pulse has been observed. Highly oriented pyrolytic graphite (HOPG) samples were irradiated by a 100 fs pulse with a center wavelength of 800 nm. Following laser exposure, the HOPG samples were studied using Raman spectroscopy of the sample surface. In the laser-irradiated areas, nanoscale cubic diamond crystals have been formed. The exposed areas were also studied using grazing incidence x-ray powder diffraction showing a restacking of planes from hexagonal graphite to rhombohedral graphite.

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Time-Resolved X-ray Diffraction Investigation of the Modified Phonon Dispersion in InSb Nanowires

Jurgilaitis¹,

Enquist²,

Andreasson³

et al. 2014

Nano Lett.

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The modified phonon dispersion is of importance for understanding the origin of the reduced heat conductivity in nanowires. We have measured the phonon dispersion for 50 nm diameter InSb (111) nanowires using time-resolved X-ray diffraction. By comparing the sound speed of the bulk (3880 m/s) and that of a classical thin rod (3600 m/s) to our measurement (2880 m/s), we conclude that the origin of the reduced sound speed and thereby to the reduced heat conductivity is that the C44 elastic constant is reduced by 35% compared to the bulk material.

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Picosecond dynamics of laser-induced strain in graphite

et al. 2011

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We report on the use of grazing-incidence time-resolved x-ray diffraction to investigate the evolution of strain in natural graphite excited by femtosecond-laser pulses in the fluence range of 6-35 mJ/cm 2 . Strains corresponding to up to ∼2.8% c-axis expansion were observed. We show that the experimental data is in good agreement with calculations based on the Thomsen strain model in conjunction with dynamical diffraction theory. Furthermore we find no evidence of nonthermal lattice expansion as reported in recent ultrafast electron-diffraction studies of laser-excited graphite conducted under comparable excitation conditions.

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Acoustically driven ferroelastic domain switching observed by time-resolved x-ray diffraction

et al. 2010

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Subpicosecond hard x-ray streak camera using single-photon counting

et al. 2010

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We have developed and characterized a hard x-ray accumulating streak camera that achieves subpicosecond time resolution by using single-photon counting. A high repetition rate of 2 kHz was achieved by use of a readout camera with built-in image processing capabilities. The effects of sweep jitter were removed by using a UV timing reference. The use of single-photon counting allows the camera to reach a high quantum efficiency by not limiting the divergence of the photoelectrons.

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Ralf Nüske

Transforming graphite to nanoscale diamonds by a femtosecond laser pulse

Time-Resolved X-ray Diffraction Investigation of the Modified Phonon Dispersion in InSb Nanowires

Picosecond dynamics of laser-induced strain in graphite

Acoustically driven ferroelastic domain switching observed by time-resolved x-ray diffraction

Subpicosecond hard x-ray streak camera using single-photon counting

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