Elise is a heavy-ion induction linear accelerator that will demonstrat
e beam manipulations required in a driver for inertial fusion energy.
With a line charge density similar to that of heavy-ions drivers, Elis
e will accelerate a beam pulse (duration of 1 mu s or more) of K+ ions
from an initial energy of 2 MeV to a final energy 5 MeV or more. In t
he present design, the Elise electrostatic quadrupoles (ESQs) will hav
e an aperture of radius 2.33 cm operating at +/- 59 kV. The half-latti
ce periods range from 21 to 31 cm. The entire machine will be approxim
ately 30 m long, half of which is the induction accelerator with the r
emaining half being the injector (including the Marx generator) and th
e matching section. Elise will be built in a way that allows future ex
pansion into the full Induction Linear Accelerator Systems Experiments
(ILSE) configuration, so it will have an array of four ESQ focusing c
hannels capable of transporting up to a total of 3.2 A of beam current
. Elise will also have an active alignment system with an alignment to
lerance of less than 0.1 mm. Initially, only one beam channel will be
used during nominal Elise operation. At the currently expected funding
rate, the construction time will be 4.75 years, with FY95 being an ex
tra year for research and development before construction. Total proje
ct cost is estimated to be US$25.9m, including contingency costs.