ITER Neutral Beam Test Facility


The ITER Neutral Beam Test Facility is a part of the International Thermonuclear Experimental Reactor in Padova, Veneto, Italy. The facility will host the full-scale prototype of the reactor's neutral beam injector, MITICA, and a smaller prototype of its ion source, SPIDER. SPIDER started its operation in June 2018. SPIDER will be used to optimize the ion beam source, to optimize the use of cesium vapor, and to verify the uniformity of the extracted ion beam also during long pulses.

ITER Heating Neutral Beams

To deliver power to the fusion plasma in ITER, two heating neutral beam injectors will be installed. They are designed to provide the power of 17MW each, through the 23m beamlines, up to the four-meter diameter container: in order to deposit sufficient heating power in the plasma core instead of the plasma edges, the beam particle energy shall be about 1 MeV, thus increasing the neutral beam system complexity to an unprecedented level. This will be the main auxiliary heating system of the reactor.
Due to its low conversion efficiency, the neutral beam injector first needs to start a precursor negative ion beam of 40A, and then neutralizes it by passing it through a gas cell, and then by a residual ion dump.
The neutralized beam is then dumped on a calorimeter during conditioning phases, or coupled with the plasma. Further reionization losses or interception with the mechanical components reduce its current to 17A.

Purposes

The role of the test facility includes research and development on the following topics:
SPIDER is the first large experimental devices to start the operation at the test facility. The components of MITICA are currently under procurement, with its first operation expected in late 2023.

SPIDER

The design parameters of SPIDER are the following:
During 2018, the plasma discharge by eight ion source RF drivers were optimised. In 2019 the operation with hydrogen negative ion beam begun: for the first year, SPIDER will operate with a reduced number of beamlets.

Capabilities

The capabilities of SPIDER and MITICA are listed in the following table in comparison with the objectives of the ITER Heating Neutral Beam and with other pre-existing devices.
ExperimentFirst operationBeam energyTarget negative ion beam currentIon source typeAccelerator typeNeutraliser typeBeamline lengthNeutral beam equivalent currentTarget single beamlet divergence
ELISEDec 2012~60 kV~27 A RF-driven caesiated surface-plasma sourceMulti-aperture electrostatic triode-~5 m--
SPIDERMay 2018110 kV54 A RF-driven caesiated surface-plasma sourceMulti-aperture electrostatic triode-~5 m--
MITICA2023 880 kV / 1000 kV 40 A RF-driven caesiated surface-plasma sourceMulti-grid multi-aperture concept 4 Gas cells~13 m16.7 A<7 mrad
ITER HNBTBD880 kV / 1000 kV 40 ARF-driven caesiated surface-plasma sourceMulti-grid multi-aperture concept 4 Gas cells~22.5 m16.7 A<7 mrad