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A new tri-particle backlighter for radiography and stopping power measurements in HED plasmas at OMEGA and the NIF
1 poster by Patrick Adrian2 poster by Tim Johnson3 poster by Graeme Sutcliffe
4 poster by Justin Kunimune5 poster by Ben Reichelt6 poster by Jacob Pearcy
MIT PhD students work on NIF diagnostics (2nd DTn1, WRF/SRF2, PRAD3, MRS-t4, PTOF) and fundamental physics (hohlraum x-rays5 and fields6)
G. Sutcliffe, P. Adrian, J. Pearcy, T. Johnson, N. Kabadi, C. Parker*, B. Lahmann,
S. Haque, A. Birkel, M. Gatu Johnson, J. Frenje, F. Seguin, R. Petrasso, C.K. LiB. Pollock, J. Moody, J. Sanchez R. Janezic, M. Koch, V.Yu. Glebov, C. Forrest
Detector stack:
CR-39 and filtering
CH foil,
25 μm
1 cm 25 cm
Expanding
plasma bubble
∇n
∇T
Blaser
DT3He
tri-particle
backlighter
3 mm
mesh
The 9.5 MeV deuteron is ideal in experiments where fields and plasma scattering are too strong for
the DD-proton to produce a quality radiograph (for example, hohlraum experiments)
𝜃ℰ ∝ ൗ𝑞ℰ𝐿𝐸
𝜃𝐵 ∝ ൘𝑞𝐵𝐿
𝑚𝐸
𝜃𝑑𝐸𝑑𝑥
∝ ൗ𝑞2𝑛𝐿𝐸
14.7 MeV D3He-p
t = 0.49 ns
9.5 MeV T3He-d
t = 0.70 ns
3 MeV DD-p
t = 0.83 ns
max
0
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