Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime

Marshall, M. C.; Lazicki, A. E.; Erskine, D.; London, R. A.; Fratanduono, D. E.; Celliers, P. M.; Eggert, J. H.; Coppari, F.; Swift, D. C.; Sterne, P. A.; Whitley, H. D.; Nilsen, J.

doi:10.1103/PhysRevB.99.174101

Title: Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime

Abstract

We present quartz and molybdenum single-shock Hugoniot data to 62 Mbar and 120 Mbar, respectively. Quartz and molybdenum are attractive standard materials for Hugoniot equation-of-state impedance-matching studies. Quartz is advantageous because a reflecting shock front is supported above ~1 Mbar whose velocity can be tracked in situ to very high accuracy. Molybdenum's relatively high impedance makes it a more appropriate standard for other high-impedance material studies to avoid large departures from the standard principal Hugoniot upon release or reshock into the sample. Extensive measurements already exist for both materials up to about 10 Mbar and 10 eV, but new high-energy-density facilities and techniques have extended the experimentally accessible pressure range to >100 Mbar. The data presented here indicate which modern equation-of-state models can be reliably extended into newly-accessible experimental regimes.

Authors:

Marshall, M. C. ^[1]; Lazicki, A. E. ^[1]; Erskine, D. ^[1]; London, R. A. ^[1]; Fratanduono, D. E. ^[1]; Celliers, P. M. ^[1]; Eggert, J. H. ^[1]; Coppari, F. ^[1]; Swift, D. C. ^[1]; Sterne, P. A. ^[1]; Whitley, H. D. ^[1]; Nilsen, J. ^[1]

Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States)

Publication Date:: Fri May 03 00:00:00 EDT 2019

Research Org.:: Lawrence Livermore National Laboratory (LLNL), Livermore, CA (United States)

Sponsoring Org.:: USDOE National Nuclear Security Administration (NNSA)

OSTI Identifier:: 1513104

Alternate Identifier(s):: OSTI ID: 1510547

Report Number(s):: LLNL-JRNL-764966
Journal ID: ISSN 2469-9950; PRBMDO; 954626

Grant/Contract Number:: AC52-07NA27344

Resource Type:: Accepted Manuscript

Journal Name:: Physical Review B

Additional Journal Information:: Journal Volume: 99; Journal Issue: 17; Journal ID: ISSN 2469-9950

Publisher:: American Physical Society (APS)

Country of Publication:: United States

Language:: English

Subject:: 75 CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY; 36 MATERIALS SCIENCE

Citation Formats


                    Marshall, M. C., Lazicki, A. E., Erskine, D., London, R. A., Fratanduono, D. E., Celliers, P. M., Eggert, J. H., Coppari, F., Swift, D. C., Sterne, P. A., Whitley, H. D., and Nilsen, J. Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime.  United States: N. p., 2019. 
Web.  doi:10.1103/PhysRevB.99.174101.

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                    Marshall, M. C., Lazicki, A. E., Erskine, D., London, R. A., Fratanduono, D. E., Celliers, P. M., Eggert, J. H., Coppari, F., Swift, D. C., Sterne, P. A., Whitley, H. D., & Nilsen, J. Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime.  United States.  https://doi.org/10.1103/PhysRevB.99.174101

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                    Marshall, M. C., Lazicki, A. E., Erskine, D., London, R. A., Fratanduono, D. E., Celliers, P. M., Eggert, J. H., Coppari, F., Swift, D. C., Sterne, P. A., Whitley, H. D., and Nilsen, J. Fri .  
"Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime".  United States.  https://doi.org/10.1103/PhysRevB.99.174101.  https://www.osti.gov/servlets/purl/1513104.

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@article{osti_1513104,

  title        = {Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime},

  author       = {Marshall, M. C. and Lazicki, A. E. and Erskine, D. and London, R. A. and Fratanduono, D. E. and Celliers, P. M. and Eggert, J. H. and Coppari, F. and Swift, D. C. and Sterne, P. A. and Whitley, H. D. and Nilsen, J.},

  abstractNote = {We present quartz and molybdenum single-shock Hugoniot data to 62 Mbar and 120 Mbar, respectively. Quartz and molybdenum are attractive standard materials for Hugoniot equation-of-state impedance-matching studies. Quartz is advantageous because a reflecting shock front is supported above ~1 Mbar whose velocity can be tracked in situ to very high accuracy. Molybdenum's relatively high impedance makes it a more appropriate standard for other high-impedance material studies to avoid large departures from the standard principal Hugoniot upon release or reshock into the sample. Extensive measurements already exist for both materials up to about 10 Mbar and 10 eV, but new high-energy-density facilities and techniques have extended the experimentally accessible pressure range to >100 Mbar. The data presented here indicate which modern equation-of-state models can be reliably extended into newly-accessible experimental regimes.},

  doi          = {10.1103/PhysRevB.99.174101},

  journal      = {Physical Review B},

  number       = 17,

  volume       = 99,

  place        = {United States},

  year         = {Fri May 03 00:00:00 EDT 2019},

  month        = {Fri May 03 00:00:00 EDT 2019}

}

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Title: Developing quartz and molybdenum as impedance-matching standards in the 100-Mbar regime

Abstract

Citation Formats

Line-imaging velocimeter for shock diagnostics at the OMEGA laser facility journal, November 2004

Measuring the shock impedance mismatch between high-density carbon and deuterium at the National Ignition Facility journal, April 2018

Shock compression measurements at 1 to 7 TPa journal, June 1982

A new quotidian equation of state (QEOS) for hot dense matter journal, January 1988

Shock-Wave Exploration of the High-Pressure Phases of Carbon journal, December 2008

Ramp compression of diamond to five terapascals journal, July 2014

A new global equation of state model for hot, dense matter journal, September 1995

High-precision measurements of the equation of state of hydrocarbons at 1–10 Mbar using laser-driven shock waves journal, May 2010

Dissociation of Liquid Silica at High Pressures and Temperatures journal, July 2006

First-principles multiphase equation of state of carbon under extreme conditions journal, July 2008

Systematic uncertainties in shock-wave impedance-match analysis and the high-pressure equation of state of Al journal, December 2005

Melting temperature of diamond at ultrahigh pressure journal, November 2009

Shock-wave experiments at threefold compression journal, March 1984

Shock compressibility of condensed materials in strong shock waves generated by underground nuclear explosions journal, November 1994

Shock compression of molybdenum to 2.0 TPa by means of a nuclear explosion journal, July 1977

Shock adiabatic curves of metals: New data, statistical analysis, and general laws journal, January 1981

Shock compression of tungsten and molybdenum journal, February 1992

Equation of state of Al, Cu, Mo, and Pb at shock pressures up to 2.4 TPa (24 Mbar) journal, March 1991

Hugoniot experiments with unsteady waves journal, July 2014

Equation of state, adiabatic sound speed, and Grüneisen coefficient of boron carbide along the principal Hugoniot to 700 GPa journal, November 2016

Hugoniot and release measurements in diamond shocked up to 26 Mbar journal, April 2017

Absolute Equation-of-State Measurement for Polystyrene from 25 to 60 Mbar Using a Spherically Converging Shock Wave journal, July 2018

The National Ignition Facility: Ushering in a new age for high energy density science journal, April 2009

High-precision measurements of the diamond Hugoniot in and above the melt region journal, November 2008

Shock Compression of Quartz to 1.6 TPa: Redefining a Pressure Standard journal, November 2009

Orbital-free extension to Kohn-Sham density functional theory equation of state calculations: Application to silicon dioxide journal, September 2015

Self-consistent field model for condensed matter journal, December 1979

Adiabatic release measurements in α -quartz between 300 and 1200 GPa: Characterization of α -quartz as a shock standard in the multimegabar regime journal, November 2013

A Steinberg-Guinan Model for High-Pressure Carbon: Diamond Phase conference, January 2008

Adiabatic release measurements in aluminum between 400 and 1200 GPa: Characterization of aluminum as a shock standard in the multimegabar regime journal, June 2015

Extension of the Hugoniot and analytical release model of α -quartz to 0.2–3 TPa journal, July 2017

Absolute Hugoniot measurements from a spherically convergent shock using x-ray radiography journal, May 2018

Three-dimensional HYDRA simulations of National Ignition Facility targets journal, May 2001

Line-imaging velocimeter for shock diagnostics at the OMEGA laser facility
journal, November 2004

Measuring the shock impedance mismatch between high-density carbon and deuterium at the National Ignition Facility
journal, April 2018

Shock compression measurements at 1 to 7 TPa
journal, June 1982

A new quotidian equation of state (QEOS) for hot dense matter
journal, January 1988

Shock-Wave Exploration of the High-Pressure Phases of Carbon
journal, December 2008

Ramp compression of diamond to five terapascals
journal, July 2014

A new global equation of state model for hot, dense matter
journal, September 1995

High-precision measurements of the equation of state of hydrocarbons at 1–10 Mbar using laser-driven shock waves
journal, May 2010

Dissociation of Liquid Silica at High Pressures and Temperatures
journal, July 2006

First-principles multiphase equation of state of carbon under extreme conditions
journal, July 2008

Systematic uncertainties in shock-wave impedance-match analysis and the high-pressure equation of state of Al
journal, December 2005

Melting temperature of diamond at ultrahigh pressure
journal, November 2009

Shock-wave experiments at threefold compression
journal, March 1984

Shock compressibility of condensed materials in strong shock waves generated by underground nuclear explosions
journal, November 1994

Shock compression of molybdenum to 2.0 TPa by means of a nuclear explosion
journal, July 1977

Shock adiabatic curves of metals: New data, statistical analysis, and general laws
journal, January 1981

Shock compression of tungsten and molybdenum
journal, February 1992

Equation of state of Al, Cu, Mo, and Pb at shock pressures up to 2.4 TPa (24 Mbar)
journal, March 1991

Hugoniot experiments with unsteady waves
journal, July 2014

Equation of state, adiabatic sound speed, and Grüneisen coefficient of boron carbide along the principal Hugoniot to 700 GPa
journal, November 2016

Hugoniot and release measurements in diamond shocked up to 26 Mbar
journal, April 2017

Absolute Equation-of-State Measurement for Polystyrene from 25 to 60 Mbar Using a Spherically Converging Shock Wave
journal, July 2018

The National Ignition Facility: Ushering in a new age for high energy density science
journal, April 2009

High-precision measurements of the diamond Hugoniot in and above the melt region
journal, November 2008

Shock Compression of Quartz to 1.6 TPa: Redefining a Pressure Standard
journal, November 2009

Orbital-free extension to Kohn-Sham density functional theory equation of state calculations: Application to silicon dioxide
journal, September 2015

Self-consistent field model for condensed matter
journal, December 1979

Adiabatic release measurements in $α$ -quartz between 300 and 1200 GPa: Characterization of $α$ -quartz as a shock standard in the multimegabar regime
journal, November 2013

A Steinberg-Guinan Model for High-Pressure Carbon: Diamond Phase
conference, January 2008

Adiabatic release measurements in aluminum between 400 and 1200 GPa: Characterization of aluminum as a shock standard in the multimegabar regime
journal, June 2015

Extension of the Hugoniot and analytical release model of α -quartz to 0.2–3 TPa
journal, July 2017

Absolute Hugoniot measurements from a spherically convergent shock using x-ray radiography
journal, May 2018

Three-dimensional HYDRA simulations of National Ignition Facility targets
journal, May 2001