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Evaluation of Aberration-corrected Optical Sectioning for Exploring the Core Structure of ½[111] Screw Dislocations in BCC Metals

  • D. Hernandez-Maldonado (a1) (a2), R. Groger (a3), Q. M. Ramasse (a1), P. B. Hirsch (a2) and P.D. Nellist (a2)...
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      Evaluation of Aberration-corrected Optical Sectioning for Exploring the Core Structure of ½[111] Screw Dislocations in BCC Metals
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      Evaluation of Aberration-corrected Optical Sectioning for Exploring the Core Structure of ½[111] Screw Dislocations in BCC Metals
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[1] Lozano, J. G., et al, Phys. Rev. Lett. 113 2014 135503.
[2] Hirsch, P.B., et al, Philos. Mag. 93 2013 3925.
[3] Yang, H., et al, Nature Commun 6 2015 7266.
[4] Hirsch, P.B. Fifth Internat. Congs. Crystallography, Cambridge 139 1960.
[5] Vitek, V., et al, Philos. Mag. 21 1970 1049.
[6] Sigle, W. Philos. Mag. 79 1999 1009.
[7] Mendis, B. G, et al., Philos. Mag. 86 2006 4607.
[8] Stroh, A. N. J. Math. Phys 41 1962 77.
[9] Lin, Y.-S., Mrovec, M. & Vitek, V. Model. Simul. Mater. Sci. Eng. 22 2014 034002.
[10] The SuperSTEM Laboratory is the U.K National Facility for Aberration-Corrected STEM, supported by the Engineering and Physical Science Research Council (EPSRC).

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