Peter B. Hirsch
Affiliations: | University of Oxford, Oxford, United Kingdom |
Area:
Metallurgy, structure of coal, transmission electron microscopyWebsite:
https://www.aip.org/history-programs/niels-bohr-library/oral-histories/31625Google:
"Peter Bernhard Hirsch" OR "Peter B Hirsch"Bio:
https://authors.library.caltech.edu/5456/1/hrst.mit.edu/hrs/materials/public/Hirsch/Hirsch_interview.htm By the time we managed to do all this by X ray diffraction, Bragg had lost interest in it. He did not actually supervise me. Bragg was interested in proteins at that point. My formal supervisor was W.H. Taylor who was head of the Crystallography Department
DOI: 10.1107/S0365110X52000514
DOI: 10.1063/PT.5.030876
http://www.worldcat.org/oclc/885435484
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Mean distance: 11.34 | S | N | B | C | P |
Cross-listing: Chemistry Tree
Parents
Sign in to add mentor| W. Lawrence Bragg | grad student | 1950 | Cambridge | |
| W. H. Taylor | grad student | 1950 | Cambridge (Crystallography Tree) | |
| (An X-ray micro-beam technique.) | ||||
Children
Sign in to add trainee| Michael John Whelan | grad student | 1957 | Cambridge |
| Archibald Howie | grad student | 1961 | Cambridge |
| John Silcox | grad student | 1961 | Cambridge |
| Peter M. Hazzledine | grad student | 1962 | Cavendish Lab |
| Colin J. Humphreys | grad student | 1969 | Cambridge (E-Tree) |
| Linn W. Hobbs | grad student | 1972 | Oxford (Chemistry Tree) |
| C. Barry Carter | grad student | 1975 | Oxford (E-Tree) |
| L. Mick Brown | post-doc | Cambridge | |
| Edward J. Kramer | post-doc | Oxford (Chemistry Tree) | |
| John C. H. Spence | post-doc | Oxford | |
| Bernard Jouffrey | post-doc | 1965 | Cambridge |
| John B. Vander Sande | post-doc | 1970-1971 | Oxford (E-Tree) |
BETA: Related publications
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Publications
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| Hernandez-Maldonado D, Yang H, Jones L, et al. (2016) STEM Optical Sectioning for Imaging Screw Dislocations Core Structures in BCC Metals Microscopy and Microanalysis. 22: 1932-1933 |
| Yang H, Lozano JG, Pennycook TJ, et al. (2015) Imaging screw dislocations at atomic resolution by aberration-corrected electron optical sectioning. Nature Communications. 6: 7266 |
| Lozano JG, Yang H, Guerrero-Lebrero MP, et al. (2014) Direct observation of depth-dependent atomic displacements associated with dislocations in gallium nitride. Physical Review Letters. 113: 135503 |
| Nellist PD, Yang H, Lozano JG, et al. (2014) STEM optical sectioning for imaging screw displacements in dislocation core structures Microscopy and Microanalysis. 20: 86-87 |
| Hirsch PB, Lozano JG, Rhode S, et al. (2013) The dissociation of the [a + c] dislocation in GaN Philosophical Magazine. 93: 3925-3938 |
| Gröger R, Dudeck KJ, Nellist PD, et al. (2011) Effect of Eshelby twist on core structure of screw dislocations in molybdenum: Atomic structure and electron microscope image simulations Philosophical Magazine. 91: 2364-2381 |
| Hirsch P, Kirkland A, Nellist P. (2010) Preface: Electron microscopy and diffraction of defects, nanostructures, interfaces and amorphous materials Conference to mark the retirement of Professor David Cockayne FRS Oxford, 7 September 2009 Philosophical Magazine. 90: 4595 |
| Cosgriff EC, Nellist PD, Hirsch PB, et al. (2010) ADF STEM imaging of screw dislocations viewed end-on Philosophical Magazine. 90: 4361-4375 |
| Nellist PD, Cosgriff EC, Hirsch PB, et al. (2008) Selection rules for Bloch wave scattering for HREM imaging of imperfect crystals along symmetry axes Philosophical Magazine. 88: 135-143 |
| Nellist PD, Cosgriff EC, Hirsch PB, et al. (2008) Bloch wave analysis of depth dependent strain effects in high resolution electron microscopy Microscopy and Microanalysis. 14: 92-93 |