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Items: 1 to 20 of 103

1.

An improved method for calibrating time-of-flight Laue single-crystal neutron diffractometers.

Bull CL, Johnson MW, Hamidov H, Komatsu K, Guthrie M, Gutmann MJ, Loveday JS, Nelmes RJ.

J Appl Crystallogr. 2014 May 29;47(Pt 3):974-983. eCollection 2014 Jun 1.

2.

Use of a miniature diamond-anvil cell in high-pressure single-crystal neutron Laue diffraction.

Binns J, Kamenev KV, McIntyre GJ, Moggach SA, Parsons S.

IUCrJ. 2016 Feb 26;3(Pt 3):168-79. doi: 10.1107/S2052252516000725. eCollection 2016 May 1.

3.

Development and applications of a new neutron single-crystal diffractometer based on a two-dimensional large-area curved position-sensitive detector.

Lee CH, Noda Y, Ishikawa Y, Kim SA, Moon M, Kimura H, Watanabe M, Dohi Y.

J Appl Crystallogr. 2013 Jun 1;46(Pt 3):697-708. Epub 2013 May 4.

5.

Computation of diffuse scattering arising from one-phonon excitations in a neutron time-of-flight single-crystal Laue diffraction experiment.

Gutmann MJ, Graziano G, Mukhopadhyay S, Refson K, von Zimmerman M.

J Appl Crystallogr. 2015 Jul 8;48(Pt 4):1122-1129. eCollection 2015 Aug 1.

6.

SENJU: a new time-of-flight single-crystal neutron diffractometer at J-PARC.

Ohhara T, Kiyanagi R, Oikawa K, Kaneko K, Kawasaki T, Tamura I, Nakao A, Hanashima T, Munakata K, Moyoshi T, Kuroda T, Kimura H, Sakakura T, Lee CH, Takahashi M, Ohshima KI, Kiyotani T, Noda Y, Arai M.

J Appl Crystallogr. 2016 Feb 1;49(Pt 1):120-127. eCollection 2016 Feb 1.

7.

Proceedings of the International Workshop on Current Challenges in Liquid and Glass Science, (The Cosener's House, Abingdon 10-12 January 2007).

Hannon AC, Salmon PS, Soper AK.

J Phys Condens Matter. 2007 Oct 17;19(41):410301. doi: 10.1088/0953-8984/19/41/410301.

PMID:
28192312
8.

Two-dimensional differential calibration method for a neutron dosemeter using a thermal neutron beam.

Matsumoto T, Harano H, Masuda A, Nishiyama J, Matsue H, Uritani A, Nunomiya T.

Radiat Prot Dosimetry. 2013 Aug;155(4):505-11. doi: 10.1093/rpd/nct029. Epub 2013 Mar 17.

PMID:
23509397
9.

Evaluation of performance for IBARAKI biological crystal diffractometer iBIX with new detectors.

Kusaka K, Hosoya T, Yamada T, Tomoyori K, Ohhara T, Katagiri M, Kurihara K, Tanaka I, Niimura N.

J Synchrotron Radiat. 2013 Nov;20(Pt 6):994-8. doi: 10.1107/S0909049513021845. Epub 2013 Oct 11.

10.

A method for in situ absolute DD yield calibration of neutron time-of-flight detectors on OMEGA using CR-39-based proton detectors.

Waugh CJ, Rosenberg MJ, Zylstra AB, Frenje JA, Séguin FH, Petrasso RD, Glebov VY, Sangster TC, Stoeckl C.

Rev Sci Instrum. 2015 May;86(5):053506. doi: 10.1063/1.4919290.

PMID:
26026524
11.

A tunable multicolour 'rainbow' filter for improved stress and dislocation density field mapping in polycrystals using X-ray Laue microdiffraction.

Robach O, Micha JS, Ulrich O, Geaymond O, Sicardy O, Härtwig J, Rieutord F.

Acta Crystallogr A. 2013 Mar;69(Pt 2):164-70. doi: 10.1107/S0108767313000172. Epub 2013 Feb 7.

PMID:
23403967
12.

WENDI: an improved neutron rem meter.

Olsher RH, Hsu HH, Beverding A, Kleck JH, Casson WH, Vasilik DG, Devine RT.

Health Phys. 2000 Aug;79(2):170-81.

PMID:
10910387
13.

Time-of-Flight Three Dimensional Neutron Diffraction in Transmission Mode for Mapping Crystal Grain Structures.

Cereser A, Strobl M, Hall SA, Steuwer A, Kiyanagi R, Tremsin AS, Knudsen EB, Shinohara T, Willendrup PK, da Silva Fanta AB, Iyengar S, Larsen PM, Hanashima T, Moyoshi T, Kadletz PM, Krooß P, Niendorf T, Sales M, Schmahl WW, Schmidt S.

Sci Rep. 2017 Aug 25;7(1):9561. doi: 10.1038/s41598-017-09717-w.

14.

Improved neutron-gamma discrimination for a (6)Li-glass neutron detector using digital signal analysis methods.

Wang CL, Riedel RA.

Rev Sci Instrum. 2016 Jan;87(1):013301. doi: 10.1063/1.4939821.

PMID:
26827314
15.

The integration of macromolecular diffraction data.

Leslie AG.

Acta Crystallogr D Biol Crystallogr. 2006 Jan;62(Pt 1):48-57. Epub 2005 Dec 14. Review.

PMID:
16369093
16.

Fusion neutron detector for time-of-flight measurements in z-pinch and plasma focus experiments.

Klir D, Kravarik J, Kubes P, Rezac K, Litseva E, Tomaszewski K, Karpinski L, Paduch M, Scholz M.

Rev Sci Instrum. 2011 Mar;82(3):033505. doi: 10.1063/1.3559548.

PMID:
21456735
17.

A Rietveld refinement method for angular- and wavelength-dispersive neutron time-of-flight powder diffraction data.

Jacobs P, Houben A, Schweika W, Tchougréeff AL, Dronskowski R.

J Appl Crystallogr. 2015 Oct 13;48(Pt 6):1627-1636. eCollection 2015 Dec 1.

18.

Energy resolution of the CdTe-XPAD detector: calibration and potential for Laue diffraction measurements on protein crystals.

Medjoubi K, Thompson A, Bérar JF, Clemens JC, Delpierre P, Da Silva P, Dinkespiler B, Fourme R, Gourhant P, Guimaraes B, Hustache S, Idir M, Itié JP, Legrand P, Menneglier C, Mercere P, Picca F, Samama JP.

J Synchrotron Radiat. 2012 May;19(Pt 3):323-31. doi: 10.1107/S0909049512004463. Epub 2012 Mar 15.

PMID:
22514165
19.

The crystal structure of paramagnetic copper(II) oxalate (CuC₂O₄): formation and thermal decomposition of randomly stacked anisotropic nano-sized crystallites.

Christensen AN, Lebech B, Andersen NH, Grivel JC.

Dalton Trans. 2014 Nov 28;43(44):16754-68. doi: 10.1039/c4dt01689k.

PMID:
25278188
20.

Measurement of the spectral fluence rate of reference neutron sources with a liquid scintillation detector.

Zimbal A.

Radiat Prot Dosimetry. 2007;126(1-4):413-7. Epub 2007 Jun 6.

PMID:
17553863

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