G. Chiu scite author profile

We present results of the first measurements of density, shock speed and particle speed in compressed liquid deuterium at pressures in excess of 1 Mbar. We have performed equation of state (EOS) measurements on the principal Hugoniot of liquid deuterium from 0.2 to 2 Mbar. We employ high-resolution radiography to simultaneously measure the shock and particle speeds in the deuterium, as well as to directly measure the compression of the sample. We are also attempting to measure the color temperature of the shocked D2. Key to this effort is the development and implementation of interferometric methods in order to carefully characterize the profile and steadiness of the shock and the level of preheat in the samples. These experiments allow us to differentiate between the accepted EOS model for D2 and a new model which includes the effects of molecular dissociation on the EOS.

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Interaction of femtosecond laser pulses with ultrathin foils

Forsman

Chiu

et al. 1998

Phys. Rev. E

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An approach for using intense femtosecond lasers to produce an equivalent idealized slab plasma of uniform electron density and temperature is described and demonstrated through numerical simulations. With a femtosecond laser as a probe, such a plasma allows the direct measurement of ac conductivity in the strongly coupled regime. It also serves as an initial value problem for the study of hot expanded states of matter.

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Absolute measurements of the equations of state of low-Z materials in the multi-Mbar regime using laser-driven shocks

Cauble

Silva

Perry

et al. 1997

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Although high intensity lasers offer the opportunity to explore the equations of state (EOSs) of materials under high energy density conditions, experimental difficulties have limited the application of laser-driven shocks to EOS measurements. However, we have recently performed absolute EOS measurements on the principal Hugoniot of liquid deuterium near one Mbar and of polystyrene from 10 to 40 Mbar. The D2 measurements were made with direct drive; the polystyrene experiments were indirectly driven. The data were sufficiently accurate to differentiate between existing EOS models and were surprising, particularly for D2. The results demonstrate that laser driven shocks can be used effectively to investigate high pressure EOSs.

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Shock-induced shifts in the aluminumKphotoabsorption edge

DaSilva

Godwal

et al. 1989

Phys. Rev. Lett.

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Pressure ionization in dense plasmas

Chiu

1999

Phys. Rev. E

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G. Chiu

Absolute Equation of State Measurements on Shocked Liquid Deuterium up to 200 GPa (2 Mbar)

Interaction of femtosecond laser pulses with ultrathin foils

Absolute measurements of the equations of state of low-Z materials in the multi-Mbar regime using laser-driven shocks

Shock-induced shifts in the aluminumKphotoabsorption edge

Pressure ionization in dense plasmas

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