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[ Identification | Description | Input parameters | Links ]
The ILL_IN13 Instrument
IN13 Thermal neutron backscattering spectrometer (without guide)
Identification
- Site: ILL
- Author: E. Farhi and A. Dennison
- Origin: ILL
- Date: March 25, 2015
Description
IN13 Thermal neutron backscattering spectrometer (without guide) Because of its high energy resolution and high momentum transfer the backscattering spectrometer IN13 is particularly useful for the microscopic study of single particle motions (jump reorientation, rotational and translational diffusion, tunnelling) observed by incoherent neutron scattering. The high energy resolution of the order of a few μeV together with the availability of high momentum transfer (Q<4.9 Å-1) makes the spectrometer IN13 particularly useful for the microscopic study of single particle motions (jump reorientation, rotational and translational diffusion, tunnelling) observed by incoherent neutron scattering. The instrument partly fills the gap of (Q, ω) space between IN10 and IN5. Temperature gradient monochromator The monochromator and analyser CaF2(422) crystals are oriented in near backscattering geometry thereby achieving an energy resolution of a few μeV. The energy of the incident neutrons is scanned by variation of the temperature of the monochromator at a fixed Bragg-angle. In an optional mode the 10 mm thick monochromator crystals are kept at a fixed temperature gradient and energy variation is performed by scanning the monochromator Bragg-angle. This achieves an increased flux at the sample position and slightly increases the energy resolution width. A vertically curved Graphite deflector focusses the beam onto the sample. The scattered neutrons are energy analysed by a set of seven spherically curved composite crystal analysers, each covering a large solid angle of 0.18 sr. An additional three circular analysers centred around the transmitted beam cover the small-angle region. The neutron time-of-flight is used to suppress (i) the background of neutrons scattered directly from the sample into the detectors and (ii) second order contamination. The neutrons are counted with a cylindrical multidetector consisting of 35 3He detector tubes, arranged in staggered circular rows. The small Q range from 0.2 to 0.8 Å-1 is covered by a 3He Position Sensitive Detector (PSD) arranged to see the circular analysers in exact backscattering. Monochromator: CaF2(422) temperature range: -125 < ΔE/µeV < 150 angular range: 81° < θM < 89° incident energy: 16.45 meV (TM≥25°C) incident wavelength: 2.23 Å energy resolution: 8 µeV Deflector: PG(002) Sample: here incoherent elastic scatterer (Vanadium) sample size 3.5 x 3.5 cm2 flux at sample 2e4 n cm-2 s-1 (when fed from H24, NOT in this model) Analyser: CaF2(422) Q-range: 0.2 < Q/Å-1 < 4.9 Q-resolution: ΔQ/Å-1 < 0.1
Input parameters
Parameters in boldface are required; the others are optional.| Name | Unit | Description | Default |
| RMV | m | monochromator vertical curvature. Use 0=flat, -1=auto. | 0 |
| RDV | m | deflector vertical curvature. Use 0=flat, -1=auto. | 4.6 |
| RDH | m | deflector horizontal curvature. Use 0=flat, -1=auto. | 0 |
| TM | K | monochromator temperature, from 77 to 500 K | 301 |
| LMD | m | monochromator-deflector distance | 1.8 |
| mos_ana | arcmin | analyser mosaic | 2 |
| CaF2mos | arcmin | monochromator mosaic | 10 |
| gW | 0.030 |
Links
- Source code for
ILL_IN13.instr. - The IN3 TAS at the ILL
[ Identification | Description | Input parameters | Links ]
Generated on 2022-12-15 07:34:57
