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A brief statement on PIP-II era.
A brief statement on why we are here.
A brief outline of today's talks and workshop rules.
An overview of Booster under option zero - higher flux.
A description of PIPII operations under PAR and higher POT in near term operations.
A overview talk on PIP-II accumulator Ring (PAR).
A description of the PAR transverse design and beam dynamics.
A overall discussion on moringing talks.
A brief introduction of afternoon talks and discussions.
A discussion of MI and Recycler tasks to be included in achieving increase flux.
A discussion on MI RF requirements and implementation.
A discussion on MI power systems changes to reach .7 sec ramp.
MI controls under the higher flux upgrades.
Design and improvement of J-PARC 3GeV Rapid Cycling Synchrotron (RCS) for 1 MW
Introduction of today's talks and workshop updates.
LBNF Primary Beamline requirements for 2.0+ MW PoT with short cycle time (~0.7s)
LBNF neutrino flux modeling for the 2.0+ MW PoT, considering various target/horn configurations.
LBNF target design and system support utilities needed for 2.0+ MW PoT.
LBNF horn requirements and development for 2.0+ MW PoT.
Overview of the LBNF 2.0+ MW decay pipe, window and absorber effects.
An overview of instrumentation required for 2.0+ MW operations, the alignment tolerances, and the required alignment features. .
A discussion on target and window material R&D needed for 2.0 MW PoT.
DUNE physics benefits under the option zero faster PoT ramp up.
HEP beam dump physics options with PAR under option zero.
A review of how option zero fits P5 and other considerations of option zero.
A discussion of impact to operations and planning for option zero.
Summary of physics impacts of higher PoT and PAR. How does the plan mesh with P5 and planned operations.
A summary of the option zero, ACE, and next steps.