C. P. J. Barty scite author profile

Using ultrafast, time-resolved, 1.54 angstrom x-ray diffraction, thermal and ultrafast nonthermal melting of germanium, involving passage through nonequilibrium extreme states of matter, was observed. Such ultrafast, optical-pump, x-ray diffraction probe measurements provide a way to study many other transient processes in physics, chemistry, and biology, including direct observation of the atomic motion by which many solid-state processes and chemical and biochemical reactions take place.

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Ultrafast electron dynamics and inner-shell ionization in laser driven clusters

Rose-Petruck

et al. 1997

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Demonstration of a 10-Hz Femtosecond-Pulse-Driven XUV Laser at 41.8 nm in Xe IX

et al. 1995

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We report the observation of extreme UV lasing at 41.81 nm on the 4d 9 5d 1 S 0-4d 9 5p 1 P 1 transition in Xe IX, as proposed by Lemoff et al. [Opt. Lett. 19, 569 (1994)]. A 10-Hz circularly polarized 800-nm laser pulse with an energy of 70 mJ and a duration of 40 fs is longitudinally focused to a peak intensity of .3 3 10 16 Wcm 2 over a length of 8.4 nm in a differentially pumped cell containing 12 Torr of Xe gas. Laser amplification was observed with an estimated gain coefficient of 13 cm-1 and a total gain of exp(11).

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Measurements of the Critical Power for Self-Injection of Electrons in a Laser Wakefield Accelerator

et al. 2009

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A laser wakefield acceleration study has been performed in the matched, self-guided, blowout regime producing 720 +/- 50 MeV quasimonoenergetic electrons with a divergence Deltatheta_{FWHM} of 2.85 +/- 0.15 mrad using a 10 J, 60 fs 0.8 microm laser. While maintaining a nearly constant plasma density (3 x 10{18} cm{-3}), the energy gain increased from 75 to 720 MeV when the plasma length was increased from 3 to 8 mm. Absolute charge measurements indicate that self-injection of electrons occurs when the laser power P exceeds 3 times the critical power P{cr} for relativistic self-focusing and saturates around 100 pC for P/P{cr} > 5. The results are compared with both analytical scalings and full 3D particle-in-cell simulations.

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Anharmonic Lattice Dynamics in Germanium Measured with Ultrafast X-Ray Diffraction

et al. 2000

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Damping of impulsively generated coherent acoustic oscillations in a femtosecond laser-heated thin germanium film is measured as a function of fluence by means of ultrafast x-ray diffraction. By simultaneously measuring picosecond strain dynamics in the film and in the unexcited silicon substrate, we separate anharmonic damping from acoustic transmission through the buried interface. The measured damping rate and its dependence on the calculated temperature of the thermal bath is consistent with estimated four-body, elastic dephasing times (T2) for 7-GHz longitudinal acoustic phonons in germanium.

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C. P. J. Barty

Detection of Nonthermal Melting by Ultrafast X-ray Diffraction

Ultrafast electron dynamics and inner-shell ionization in laser driven clusters

Demonstration of a 10-Hz Femtosecond-Pulse-Driven XUV Laser at 41.8 nm in Xe IX

Measurements of the Critical Power for Self-Injection of Electrons in a Laser Wakefield Accelerator

Anharmonic Lattice Dynamics in Germanium Measured with Ultrafast X-Ray Diffraction

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