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The JRC Neutron Time-of-Flight Facility

The JRC's Neutron Time-of-Flight Facility is one of the best pulsed white spectrum neutron sources available in the world.

The set-up at GELINA for measuring the influence of sample temperature on neutron transmission.

Among the pulsed white spectrum neutron sources available in the world, the linear electron accelerator facility in Geel (GELINA), is the one with the best time resolution.

GELINA combines four specially designed and distinct units: a high-power pulsed linear electron accelerator, a post-accelerating beam compression magnet system, a mercury-cooled uranium target, and flight paths with measurement equipment. GELINA is one of the first JRC research infrastructure providing open access to Member State researchers allowing a variety of nuclear measurements.

The GELINA neutron source is based on a linear electron accelerator producing electron beams. A typical beam operation mode uses 100 MeV average energy, 10 ns pulse length, 800 Hz repetition rate, 12 A peak and 100 µA average current. With a post-acceleration pulse compression system, the electron pulse width can be reduced to approximately 1 ns (FWHM) while preserving the current, resulting in a peak current of 120 A. The accelerated electrons produce Bremsstrahlung in a uranium target which in turn, by photonuclear reactions, produces neutrons. Within a 1 ns pulse a peak neutron production of 4.3 x 10 10 neutrons is achieved (average production rate of 3.4 x 1013 neutrons/s).

The neutron energy distribution emitted by the target ranges from subthermal to about 20 MeV, with a peak at 1-2 MeV. To have a significant number of neutrons in the energy range below 100 keV, a hydrogen-rich moderator is added. The partially moderated neutrons have an approximate 1/E energy dependence plus a Maxwellian peak at thermal energy. By using collimators and shadow bars moderated or unmoderated neutron beams are selected for the twelve neutron flight paths. Further tailoring of the spectral shape is done with filters.

The up to 400 m long flight paths, symmetrically arranged around the uranium target, lead to experimental locations at distances of 10, 30, 50, 60, 100, 200, 300 and 400 m. These experimental stations are equipped with a variety of sophisticated detectors, and data acquisition and analysis systems. Arrangements are flexible allowing installation of new equipment to meet new requirements. GELINA Is a multi-user facility serving up to 12 different experiments simultaneously. The facility is operated in shift work on a 24 hours/day basis, for about 100 hours per week.

Previous open access calls can be visited here.

 

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Call for proposals: GELINA, Neutron time-of-flight facility for high-resolution neutron measurements (EUFRAT)