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RIS citation export for FR2AO01: How Accurate Laser Physics Modeling Is Enabling Nuclear Fusion Ignition Experiments

TY  - CONF
AU  - McCandless, K.P.
AU  - Aden, R.H.
AU  - Bhasker, A.
AU  - Deveno, R.T.
AU  - Di Nicola, J.-M.G.
AU  - Erickson, M.
AU  - Lanier, T.E.
AU  - McLaren, S.A.
AU  - Mennerat, G.
AU  - Morrissey, F.X.
AU  - Penner, J.
AU  - Petersen, T.
AU  - Raymond, B.A.
AU  - Schrauth, S.E.
AU  - Tam, M.F.
AU  - Varadan, K.
AU  - Waxer, L.
ED  - Schaa, Volker RW
ED  - Götz, Andy
ED  - Venter, Johan
ED  - White, Karen
ED  - Robichon, Marie
ED  - Rowland, Vivienne
TI  - How Accurate Laser Physics Modeling Is Enabling Nuclear Fusion Ignition Experiments
J2  - Proc. of ICALEPCS2023, Cape Town, South Africa, 09-13 October 2023
CY  - Cape Town, South Africa
T2  - International Conference on Accelerator and Large Experimental Physics Control Systems
T3  - 19
LA  - english
AB  - This last year we achieved an important milestone by reaching fusion ignition at Lawrence Livermore National Laboratory’s (LLNL) National Ignition Facility (NIF), a multi-decadal effort involving a large collaboration. The NIF facility contains a 192-beam 4.2 MJ neodymium glass laser (around 1053 nm) that is frequency converted to 351 nm light. To meet stringent laser performance required for ignition, laser modeling codes including the Virtual Beamline (VBL) and its predecessors are used as engines of the Laser Operations Performance Model (LPOM). VBL comprises an advanced nonlinear physics model that captures the response of all the NIF laser components (from IR to UV and nJ to MJ) and precisely computes the input beam power profile needed to deliver the desired UV output on target. NIF was built to access the extreme high energy density conditions needed to support the nation’s nuclear stockpile and to study Inertial Confinement Fusion (ICF). The design, operation and future enhancements to this laser system are guided by the VBL physics modeling code which uses best-in-class standards to enable high-resolution simulations on the Laboratory’s high-performance computing platforms. The future of repeated and optimized ignition experiments relies on the ability for the laser system to accurately model and produce desired power profiles at an expanded regime from the laser’s original design criteria. 
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 1620
EP  - 1625
KW  - laser
KW  - target
KW  - experiment
KW  - optics
KW  - software
DA  - 2024/02
PY  - 2024
SN  - 2226-0358
SN  - 978-3-95450-238-7
DO  - doi:10.18429/JACoW-ICALEPCS2023-FR2AO01
UR  - https://jacow.org/icalepcs2023/papers/fr2ao01.pdf
ER  -