Your search keyword '"Moon, Stephen J."' showing total 8 results

1. Advances toward inner-shell photo-ionization x-ray lasing at 45 Å.

Author

Moon, Stephen J., Weber, Franz A., Celliers, Peter M., and Eder, David C.

Subjects

*INNER-shell ionization, *X-ray lasers

Abstract

The inner-shell photo-ionization (ISPI) scheme requires photon energies at least high enough to photo-ionize the K-shell, ∼286 eV, in the case of carbon. As a consequence of the higher cross-section, the inner-shell are "selectively" knocked out, leaving a hole state 1s2s[SUP2]2p[SUP2] in the singly charged carbon ion. This generates a population inversion to the radiatively connected state 1s[SUP2]2s[SUP2]2p in C+, leading to gain on the 1s-2p transition at 45 Å. The resonant character of the lasing transition in the single ionization state intrinsically allows much higher quantum efficiency compared to other schemes. Competing processes that deplete the population inversion include auto-ionization, Auger decay, and in particular collisional ionization of the outer-shell electrons by electrons generated during photo-ionization. These competing processes rapidly quench the gain. Consequently, the pump method must be capable of populating the inversion at a rate faster than the competing processes. This can be achieved by an ultra-fast, high intensity laser that is able to generate an ultra-fast, bright x-ray source. With current advances in the development of high-power, ultra-short pulse lasers it is possible to realize fast x-ray sources based that can deliver powerful pulses of light in the multiple hundred terawatt regime and beyond. We will discuss in greater detail concept, target design and a series of x-ray spectroscopy investigations we have conducted in order to optimize the absorber/x-ray converter - filter package. [ABSTRACT FROM AUTHOR]

Published

2002

2. 1 – 10 Mbar Laser-Driven Shocks Using the Janus Laser Facility.

Author

Dunn, James, Price, Dwight F., Moon, Stephen J., Cauble, Robert C., Springer, Paul T., and Ng, Andrew

Subjects

*MECHANICAL shock, *LASER beams

Abstract

We report preliminary results using the Lawrence Livermore National Laboratory (LLNL) Janus laser facility to generate high pressure laser-driven shocks in the 1 - 10 Mbar regime. These experiments address various issues, including shock steadiness, planarity, uniformity and low target preheat, important for making precision EOS measurements on a small (E < 250 J) laser facility. A brief description of the experimental techniques, target design and measurements will be given. [ABSTRACT FROM AUTHOR]

Published

2002

3. High planarity x-ray drive for ultrafast shockless-compression experiments.

Author

Smith, Raymond F., Pollaine, Stephen M., Moon, Stephen J., Lorenz, K. Thomas, Celliers, Peter M., Eggert, Jon H., Park, Hye-Sook, and Collins, Gilbert W.

Subjects

*PHYSICS, *BRIGHTNESS temperature, *X-rays, *LONGITUDINAL method, *ALUMINUM, *LASER beams

Abstract

A spatially planar (Δtime/time∼0.2%) longitudinal stress drive extending over millimeter scale lengths is used to shocklessly compress an aluminum sample to a peak stress of 210 GPa over nanosecond time scales. Direct laser irradiation onto the inner wall of an Au halfraum creates an x ray distribution with a near-uniform blackbody temperature of up to 137 eV. The x rays ablate material from a low-Z foil in a region of planarity closely matched to the diameter of the halfraum. The resultant ablatively driven shock is converted into a ramp-stress-wave in a secondary aluminum target through unloading across an intermediate vacuum gap. Higher peak stresses and shorter associated risetimes result from increasing input laser energy. Ramp-compression experiments can provide single shot equation-of-state data close to the isentrope, information on the kinetics of phase transformations, and material strength at high pressures. [ABSTRACT FROM AUTHOR]

Published

2007

4. Laser-driven shock experiments on precompressed water: Implications for “icy” giant planets.

Author

Lee, Kanani K. M., Benedetti, L. Robin, Jeanloz, Raymond, Celliers, Peter M., Eggert, Jon H., Hicks, Damien G., Moon, Stephen J., Mackinnon, Andrew, Collins, Gilbert W., Henry, Emeric, Koenig, Michel, and Benuzzi-Mounaix, Alessandra

Subjects

*LASER photochemistry, *LIQUID semiconductors, *COMPRESSIBILITY, *HYDROSTATIC pressure, *COMPOUND semiconductors, *PLANETARY atmospheres

Abstract

Laser-driven shock compression of samples precompressed to 1 GPa produces high-pressure-temperature conditions inducing two significant changes in the optical properties of water: the onset of opacity followed by enhanced reflectivity in the initially transparent water. The onset of reflectivity at infrared wavelengths can be interpreted as a semiconductor↔electronic conductor transition in water, and is found at pressures above ∼130 GPa for single-shocked samples precompressed to 1 GPa. Our results indicate that conductivity in the deep interior of “icy” giant planets is greater than realized previously because of an additional contribution from electrons. [ABSTRACT FROM AUTHOR]

Published

2006

5. Taking Thin Diamonds to Their Limit: Coupling Static-Compression and Laser-Shock Techniques to Generate Dense Water.

Author

Lee, Kanani K. M., Benedetti, L. Robin, Mackinnon, Andrew, Hicks, Damien, Moon, Stephen J., Loubeyre, Paul, Occelli, Florent, Dewaele, Agnes, Collins, Gilbert W., and Jeanloz, Raymond

Subjects

*DIAMONDS, *THERMODYNAMICS

Abstract

Laser-driven Hugoniot experiments on precompressed samples access thermodynamic conditions unreachable by either static or single-shock compression techniques alone. Recent experiments using Rutherford Appleton Laboratory's Vulcan Laser achieved final pressures up to ∼200 GPa and temperatures up to 10,000 K in water samples precompressed to ∼1 GPa, thereby validating this new technique. Diamond anvils, used for sample precompression, must be thin in order to avoid rarefaction catch up; but thin diamonds fail under pressure. Anvils no more than 200 µm thick were encased in diamond cells modified to accommodate the laser-beam geometry. [ABSTRACT FROM AUTHOR]

Published

2002

6. Publisher’s Note: “Laser-driven shock experiments on precompressed water: Implications for ‘icy’ giant planets” [J. Chem. Phys. 125, 014701 (2006)].

Author

Lee, Kanani K. M., Benedetti, L. Robin, Jeanloz, Raymond, Celliers, Peter M., Eggert, Jon H., Hicks, Damien G., Moon, Stephen J., Mackinnon, Andrew, Da Silva, Luis B., Bradley, David K., Unites, Walter, Collins, Gilbert W., Henry, Emeric, Koenig, Michel, Benuzzi-Mounaix, Alessandra, Pasley, John, and Neely, David

Subjects

*WATER

Abstract

A correction to the article "Laser-driven shock experiments on precompressed water: Implications for 'icy' giant planets" that was published in the 2006 issue is presented.

Published

2007

7. Soft X-Ray Laser Interferometry of a Dense Plasma Jet.

Author

Grava, Jonathan, Purvis, Michael A., Filevich, Jorge, Marconi, Mario C., Dunn, James, Moon, Stephen J., Shlyaptsev, V. N., and Rocca, Jorge J.

Subjects

*LASERS, *X-rays, *RADIATION, *ELECTROMAGNETIC waves, *PLASMA gases, *IRRADIATION, *ELECTRON distribution, *ELECTRONS, *NUCLEAR energy

Abstract

Soft X-ray laser interferograms were acquired to map the evolution of a dense plasma jet created by the laser irradiation of a solid copper triangular target. The plasma is observed to rapidly expand along the symmetry plane of the target, forming a narrow plasma plume with measured electron densities of up to 1.2 × 1020 cm-3. [ABSTRACT FROM AUTHOR]

Published

2008

8. Soft X-Ray Laser Interferometry of Colliding Laser-Created Plasmas in Semicylindrical Cavities.

Author

Purvis, Michael A., Grava, Jonathan, Filevich, Jorge, Marconi, Mario C., Dunn, James, Moon, Stephen J., Shlyaptsev, Vyacheslav N., Jankowska, Elizabeth, and Rocca, Jorge J.

Subjects

*PLASMA lasers, *INTERFEROMETRY, *ALUMINUM, *IRRADIATION, *ELECTRON distribution

Abstract

A tabletop capillary discharge soft X-ray laser was used to acquire high-contrast interferograms that map the evolution of dense aluminum plasmas created by the laser irradiation of a 500-/Am-diameter semicylindrical cavity with 120-ps optical laser pulses of ~1.1 × 1012 - W · cm-2 peak intensity. The measured electron density maps, which were compared with simulations, show that the plasma converges on axis where it collides to form a localized region with density exceeding 1 × 1020 cm-3. [ABSTRACT FROM AUTHOR]

Published

2008