Asterix
Asterix operates on the Lujan Center’s cold neutron moderator and views an intense polychromatic neutron beam with a 4 to 13 Å wavelength range through a 36-cm 2 neutron guide. The location of the instrument in the quiescent environment of Experiment-Room-2, and robust neutron shielding greatly minimize instrumental background.
Surfaces and Interfaces
Density distribution of a PuO2 thin film
Asterix is a versatile nano- and meso-scale neutron scattering spectrometer primarily used to investigate interfaces and thin organic and inorganic layers ranging from 5 to 5,000 Å. This time-of-flight instrument is capable of utilizing reflectometer, diffractometer, and grazing-incidence-SANS scattering geometries and is designed to perform studies of the in- and out-of-plane structures of condensed and soft matter thin films. The 2.5-m long detector arm is readily configurable for a variety of experimental needs including reflection in either horizontal or vertical planes. A special strength of Asterix is the ease with which a great variety of experimental requirements and sample environments can be accommodated. Special sample environment capabilities exist including solid-liquid interface cells, high P/T cells (up to 200MPa and 200°C), and a RF induction furnace to reach 1,200°C.
Radiography and phase contrast imaging
Phase contrast image of Pb fishing sinkers suspended by Al wires
Imaging techniques using cold neutrons (0.5 to 5.0 meV) can be performed on Asterix. The beam defining aperture is controllable from <1mm2 to 9cm2 and the aperture to detector distance ranges from to 1.0 to 5.5m. Phase contrast imaging, which relies on contrast generated from refraction of neutron waves, is ideally suited for imaging of low neutron absorbing materials and for enhancing the appearance of internal and external surfaces and interfaces. Cold neutron radiography, which relies on absorption contrast in the sample, is ideal for materials science studies of hydrogen distribution in materials that are often difficult to study with other techniques. Cold neutron radiography complements the thermal neutron imaging (1L target, FP-5) and high energy neutron imaging (Target 4, 60R) capabilities at LANSCE.
Specifications
Moderator |
Lower-tier coupled liquid-hydrogen moderator |
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Beam cross-section
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60 mm by 60 mm |
Primary flight path |
Target to sample position: 18 m |
Secondary flight path |
Sample to detector position: 0.5 – 2.5 m |
Wavelength frame |
4 to 13 Å |
Resolution |
Time-of-flight (wavelength) resolution 0.2 to 0.6% |
Neutron detector
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One-dimensional position sensitive detector (PSD) on a detector arm with range of motion from 6° - 40°. The PSD can be rotated 90° about the normal to the detector face. |
Neutron detector
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Two-dimensional PSD on a detector arm with range of motion from 6° - 40°. The PSD is equipped with two 3He pencil detectors that can be translated in the horizontal and vertical directions. |
Neutron detector
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10x10 cm two-dimensional Li doped ZnS scintillator |
Neutron detector
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Two-dimensional array of PSD tubes that can be placed anywhere inside the Asterix cave. Maximum scattering angle is 100°. |
Sample environment options tailored for Asterix experiments |
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