Pinch Radius vs. Time
|
|
(6/17/04)
|
Pinch Power vs. Time
|
|
(6/17/04)
|
Pinch Emission Temperature
vs. Time
|
|
(6/17/04)
|
Time Dependent Albedo
for Surfaces in VisRad
|
|
(6/17/04)
|
Spatial Variation of
Incident Spectrum on Gas Cell
|
|
(6/16/04)
|
Spatial Variation of
Radiation Temperature of Gas Cell
|
|
(6/16/04)
|
Incident Flux on
the Center of the Gas Cell from other Surfaces
|
|
(6/16/04)
|
Time Evolution
of Incident Spectrum on Center of Gas Cell
|
|
(6/16/04)
|
Ion Temperature vs. Position LTE, Non-DCA Mylar
and Neon mylar_1.prp
|
[run_3]
|
(6/29/04)
|
Mass Density vs. Position LTE, Non-DCA
Mylar and Neon mylar_1.prp
|
[run_3]
|
(6/29/04)
|
Ion
Temperature vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_1.prp Min Temp for CR = 10
eV *
|
[run_4]
|
(6/28/04)
|
Mass
Density vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_1.prp Min Temp for CR = 10
eV *
|
[run_4]
|
(6/28/04)
|
Ion Temperature
vs. Position LTE, DCA Neon, Non-DCA Mylar
mylar_1.prp Min Temp for CR = 10 eV *
|
[run_5]
|
(6/28/04)
|
Mass Density
vs. Position LTE, DCA Neon, Non-DCA Mylar
mylar_1.prp Min Temp for CR = 10 eV *
|
[run_5]
|
(6/28/04)
|
Ion Temperature
vs. Position NLTE, DCA Neon, Non-DCA Mylar
mylar_2.prp Min Temp for CR = 10 eV *
|
[run_6]
|
(6/29/04)
|
Mass Density
vs. Position NLTE, DCA Neon, Non-DCA Mylar
mylar_2.prp Min Temp for CR = 10
eV *
|
[run_6]
|
(6/29/04)
|
3-D Plot of
Ion Temperature vs. Position NLTE, DCA Neon,
Non-DCA Mylar mylar_2.prp Min Temp for CR =
10 eV *
|
[run_6]
|
(7/1/04)
|
Ion
Temperature vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_2.prp Min Temp for CR = 10 eV
120 total grid zones (norm is 60) *
|
[run_6]
|
(7/13/04)
|
Mass Density
vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_2.prp Min Temp for CR = 10 eV
120 total grid zones (norm is 60) *
|
[run_6]
|
(7/13/04)
|
Ion Temperature
vs. Position LTE, DCA Neon, Non-DCA Mylar
mylar_2.prp Min Temp for CR = 10 eV *
|
[run_7]
|
(6/29/04)
|
Mass Density
vs. Position LTE, DCA Neon, Non-DCA Mylar
mylar_2.prp Min Temp for CR = 10 eV *
|
[run_7]
|
(6/29/04)
|
Ion Temperature
vs. Position LTE, Non-DCA Mylar and Neon
mylar_2.prp *
|
[run_8]
|
(7/5/04)
|
Mass Density
vs. Position LTE, Non-DCA Mylar and Neon
mylar_2.prp *
|
[run_8]
|
(7/5/04)
|
Ion Temperature
vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_2.prp
|
[run_9]
|
(1/7/05)
|
Mass Density
vs. Position NLTE, DCA Neon, Non-DCA
Mylar mylar_2.prp
|
[run_9]
|
(1/7/05)
|
Ion
Temperature vs. Position Comparison
|
[run_3-5]
|
(6/29/04)
|
Mass
Density vs. Position Comparison
|
[run_3-5]
|
(6/29/04)
|
Ion
Temperature vs. Position Comparison
|
[run_6-8]
|
(7/6/04)
|
Mass
Density vs. Position Comparison
|
[run_6-8]
|
(7/6/04)
|
Ion
Temperature vs. Position Comparison for Different # of
Gridding Zones
|
[run_6]
|
(7/13/04)
|
Mass
Density vs. Position Comparison for Different # of
Gridding Zones
|
[run_6]
|
(7/13/04)
|
Opacity
Comparison for mylar_1.prp and run3_undoped.prp T =
40 eV, nion = 1 x 1020
cm-3
|
|
(6/28/04)
|
Opacity
Comparison for mylar_2.prp and run3_undoped.prp T = 10
eV, nion = 2 x 1020 cm-3
|
|
(6/28/04)
|
Opacity
Comparison for mylar_2.prp and run3_undoped.prp T = 40
eV, nion = 1 x 1020
cm-3
|
|
(6/28/04)
|
Opacity
Comparison for mylar_2.prp and run3_undoped.prp T =
60 eV, nion = 1 x 1020
cm-3
|
|
(6/28/04)
|
Ion
Temperature Comparison for mylar_1.prp and
run3_undoped.prp Non-DCA Mylar and Neon, and LTE
Mode
|
[run_1,3]
|
(6/24/04)
|
Mass
Density Comparison for mylar_1.prp and
run3_undoped.prp Non-DCA Mylar and Neon, and LTE
Mode
|
[run_1,3]
|
(6/24/04)
|
Absorption
Spectrum LTE Kinetics Model DCA
Opacities Continuum Backlighter No External
Radiation Field
|
[run_6_a]
|
(7/7/04)
|
Absorption
Spectrum Collisional-Radiative Kinetics Model NO
Photoexcitation or Photoionization Model DCA
Opacities Continuum Backlighter No External
Radiation Field
|
[run_6_b]
|
(7/7/04)
|
Absorption
Spectrum Collisional-Radiative Kinetics
Model Non-Local Radiation Model for Photoexcitation and
Photoionization DCA Opacities Continuum
Backlighter External Radiation Field
|
[run_6_c]
|
(7/7/04)
|
Emission
Spectrum NO Backlighter
|
[run_6_c]
|
(7/8/04)
|
Emission
Spectrum NO Backlighter Infinite Resolution
|
[run_6_c]
|
(7/13/04)
|
Comparison
between Absorption Spectrum from Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 400
|
[run_6_c]
|
(7/15/04)
|
Comparison
between Absorption Spectrum from Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 600 10.4 - 10.9 angstroms
|
[run_6_c]
|
(7/22/04)
|
Comparison
between Absorption Spectrum from Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 600 10.8 - 11.8 angstroms
|
[run_6_c]
|
(7/22/04)
|
Comparison
between Absorption Spectrum from Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 600 11.9 - 12.4 angstroms
|
[run_6_c]
|
(7/23/04)
|
Comparison
between Absorption Spectrum from Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum =
600
neon_1_big.atm 13.2 - 14.0
angstroms
|
[run_6_c]
|
(7/23/04)
|
Comparison
between Absorption Spectrum for Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 800 10.4 - 10.9 angstroms
|
[run_6_c]
|
(7/22/04)
|
Comparison
between Absorption Spectrum for Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 800 10.8 - 11.8 angstroms
|
[run_6_c]
|
(7/22/04)
|
Comparison
between Absorption Spectrum for Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 800 11.9 - 12.4 angstroms
|
[run_6_c]
|
(7/23/04)
|
Comparison
between Absorption Spectrum for Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum =
800
neon_1_big.atm 13.2 - 14.0
angstroms
|
[run_6_c]
|
(7/23/04)
|
Comparison
between Absorption Spectrum for Shot Z543 and Synthesized
Absorption Spectrum Spectral Resolution for
Synthesized Spectrum = 1200
|
[run_6_c]
|
(7/15/04)
|