Christopher L Farrow
Christopher L Farrow
Enthought, Inc.
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PDFfit2 and PDFgui: computer programs for studying nanostructure in crystals
CL Farrow, P Juhas, JW Liu, D Bryndin, ES Božin, J Bloch, T Proffen, ...
Journal of Physics: Condensed Matter 19 (33), 335219, 2007
PDFgetX3: a rapid and highly automatable program for processing powder diffraction data into total scattering pair distribution functions
P Juhás, T Davis, CL Farrow, SJL Billinge
Journal of applied crystallography 46 (2), 560-566, 2013
Complex modeling: a strategy and software program for combining multiple information sources to solve ill posed structure and nanostructure inverse problems
P Juhás, C Farrow, X Yang, K Knox, S Billinge
Acta Crystallographica Section A: Foundations and Advances 71 (6), 562-568, 2015
Relationship between the atomic pair distribution function and small-angle scattering: implications for modeling of nanoparticles
CL Farrow, SJL Billinge
Acta Crystallographica Section A: Foundations of Crystallography 65 (3), 232-239, 2009
Quantitative size-dependent structure and strain determination of CdSe nanoparticles using atomic pair distribution function analysis
AS Masadeh, ES Božin, CL Farrow, G Paglia, P Juhas, SJL Billinge, ...
Physical Review B—Condensed Matter and Materials Physics 76 (11), 115413, 2007
Finding cycles in synchronous Boolean networks with applications to biochemical systems
J Heidel, J Maloney, C Farrow, JA Rogers
International Journal of Bifurcation and Chaos 13 (03), 535-552, 2003
xPDFsuite: an end-to-end software solution for high throughput pair distribution function transformation, visualization and analysis
X Yang, P Juhas, CL Farrow, SJL Billinge
arXiv preprint arXiv:1402.3163, 2014
Intermediate-range structure of self-assembled cobalt-based oxygen-evolving catalyst
CL Farrow, DK Bediako, Y Surendranath, DG Nocera, SJL Billinge
Journal of the American Chemical Society 135 (17), 6403-6406, 2013
Scalar equations for synchronous Boolean networks with biological applications
C Farrow, J Heidel, J Maloney, J Rogers
IEEE Transactions on Neural Networks 15 (2), 348-354, 2004
Search for a structural response to the intermediate phase in glasses
MTM Shatnawi, CL Farrow, P Chen, P Boolchand, A Sartbaeva, ...
Physical Review B—Condensed Matter and Materials Physics 77 (9), 094134, 2008
Nyquist-Shannon sampling theorem applied to refinements of the atomic pair distribution function
CL Farrow, M Shaw, H Kim, P Juhás, SJL Billinge
Physical Review B—Condensed Matter and Materials Physics 84 (13), 134105, 2011
Structural study of biotic and abiotic poorly-crystalline manganese oxides using atomic pair distribution function analysis
M Zhu, CL Farrow, JE Post, KJT Livi, SJL Billinge, M Ginder-Vogel, ...
Geochimica et Cosmochimica Acta 81, 39-55, 2012
Tiopronin gold nanoparticle precursor forms aurophilic ring tetramer
CA Simpson, CL Farrow, P Tian, SJL Billinge, BJ Huffman, KM Harkness, ...
Inorganic chemistry 49 (23), 10858-10866, 2010
Towards a robust ad hoc data correction approach that yields reliable atomic pair distribution functions from powder diffraction data
SJL Billinge, CL Farrow
Journal of Physics: Condensed Matter 25 (45), 454202, 2013
Robust structure and morphology parameters for CdS nanoparticles by combining small-angle X-ray scattering and atomic pair distribution function data in a complex modeling …
C Farrow, C Shi, P Juhás, X Peng, SLJ Billinge
Applied Crystallography 47 (2), 561-565, 2014
PDFgui user guide
CL Farrow, P Juhás, JW Liu, D Bryndin, ES Bozin, J Bloch, T Proffen, ...
PDFGUI User Guid, 2009
Dynamics of k-core percolation
CL Farrow, P Shukla, PM Duxbury
Journal of Physics A: Mathematical and Theoretical 40 (27), F581, 2007
SrRietveld: a program for automating Rietveld refinements for high-throughput powder diffraction studies
P Tian, W Zhou, J Liu, Y Shang, CL Farrow, P Juhás, SJL Billinge
Journal of Applied Crystallography 46 (1), 255-258, 2013
Ab-initio reconstruction of complex Euclidean networks in two dimensions
SR Gujarathi, CL Farrow, C Glosser, L Granlund, PM Duxbury
Physical Review E 89 (5), 053311, 2014
Quantitative nanoparticle structures from electron crystallography data
CL Farrow, CY Ruan, SJL Billinge
Physical Review B—Condensed Matter and Materials Physics 81 (13), 134104, 2010
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