Hot-spot mix in ignition-scale inertial confinement fusion targets.

Authors :: Regan SP
Epstein R
Hammel BA
Suter LJ
Scott HA
Barrios MA
Bradley DK
Callahan DA
Cerjan C
Collins GW
Dixit SN
Döppner T
Edwards MJ
Farley DR
Fournier KB
Glenn S
Glenzer SH
Golovkin IE
Haan SW
Hamza A
Hicks DG
Izumi N
Jones OS
Kilkenny JD
Kline JL
Kyrala GA
Landen OL
Ma T
MacFarlane JJ
MacKinnon AJ
Mancini RC
McCrory RL
Meezan NB
Meyerhofer DD
Nikroo A
Park HS
Ralph J
Remington BA
Sangster TC
Smalyuk VA
Springer PT
Town RP
Source :: Physical review letters [Phys Rev Lett] 2013 Jul 26; Vol. 111 (4), pp. 045001. Date of Electronic Publication: 2013 Jul 22.
Publication Year :: 2013
Abstract: Mixing of plastic ablator material, doped with Cu and Ge dopants, deep into the hot spot of ignition-scale inertial confinement fusion implosions by hydrodynamic instabilities is diagnosed with x-ray spectroscopy on the National Ignition Facility. The amount of hot-spot mix mass is determined from the absolute brightness of the emergent Cu and Ge K-shell emission. The Cu and Ge dopants placed at different radial locations in the plastic ablator show the ablation-front hydrodynamic instability is primarily responsible for hot-spot mix. Low neutron yields and hot-spot mix mass between 34(-13,+50) ng and 4000(-2970,+17 160) ng are observed.