Thorpe, Michael - Department of Physics and Astronomy, Arizona State University

• Docking of Photosystem I Subunit C Using a Constrained Geometric Simulation
• Uncovering the intrinsic geometry from the atomic pair distribution function of nanomaterials Department of Biochemistry, Brandeis University, 415 South Street, Waltham, Massachusetts 02453, USA
• Two-dimensional discrete Coulomb alloy Yuqing Xiao and M. F. Thorpe
• Structural Models of Amorphous Graphene. Mark Wilson
• J. Phys.: Condens. Matter 11 (1999) 25512568. Printed in the UK PII: S0953-8984(99)00195-2 The spectral function of composites: the inverse problem
• February 18, 2003 Charged Lattice Gas with a Neutralizing Background
• RIGIDITY AND SELF-ORGANIZATION OF NETWORK GLASSES AND THE INTERMEDIATE PHASE
• DIRECTIONS TO MIKE THORPE'S HOUSE [256 East Louis Way, Tempe]
• ZEOLITES: GEOMETRY AND COMBINATORICS BRIGITTE SERVATIUS, HERMAN SERVATIUS, AND M.F. THORPE
• A Natural Coarse Graining for Simulating Large Biomolecular Motion Holger Gohlke* and M. F. Thorpey
• Spectral densities of embedded interfaces in composite materials A. R. McGurn
• Local atomic structure of semiconductor alloys using pair distribution functions. II. Jean S. Chung
• Intrinsic limitations on device performance and reliability from bond-constraint induced transition regions at interfaces
• J. Phys.: Condens. Matter 9 (1997) 19831994. Printed in the UK PII: S0953-8984(97)77754-3 The bulk modulus of covalent random networks
• Strain broadening of the magnetization steps in diluted magnetic semiconductors Yuri G. Rubo* and M. F. Thorpe
• Geometric Simulation of Perovskite Frameworks with Jahn-Teller Distortions: Applications to the Cubic Manganites
• Physica B 338 (2003) 2430 Spectral representation of the electrical properties
• Renormalization group treatment of rigidity percolation R. B. Stinchcombe1,
• Modeling Correlated Main-Chain Motions in Proteins for Flexible Molecular Recognition
• Physica B 279 (2000) 17}20 The spectral function of a composite from re#ectance data
• Generating Stereochemically Acceptable Protein Pathways Daniel W. Farrell
• 5 (2001) 525532Current Opinion in Solid State and Materials Science Self-organization and rigidity in network glasses
• Dielectric function for a material containing hyperspherical inclusions to O(c2
• APS/123-QED Search for a Structural Response to the Intermediate Phase in GexSe1-x Glasses
• J. Phys.: Condens. Matter 8 (1996) 43894409. Printed in the UK The spectral function of random resistor networks
• Coherency of phason dynamics in Fibonacci chains G. G. Naumis
• The Database of Macromolecular Motions: new features added at the decade mark
• IOP PUBLISHING PHYSICAL BIOLOGY Phys. Biol. 8 (2011) 026017 (10pp) doi:10.1088/1478-3975/8/2/026017
• IOP PUBLISHING PHYSICAL BIOLOGY Phys. Biol. 6 (2009) 036017 (11pp) doi:10.1088/1478-3975/6/3/036017
• Flexibility of ideal zeolite frameworks V. Kapko, C. Dawson, M. M. J. Treacy* and M. F. Thorpe
• STUDIES OF SOME PROBLEMS RELATED TO ATOMIC ORDERING, MOLECULAR MOTION
• Structure of CaMnO3 in the range 10 K T 550 K from neutron time-of-flight total scattering
• STRUCTURE AND DYNAMICS IN PHOTOSYSTEM I Craig Charles Jolley
• PROTEIN RIGIDITY AND FLEXIBILITY: APPLICATIONS TO FOLDING AND THERMOSTABILITY
• 10 February 2003 NEWS Proteins are the smallest objects
• INSTITUTE OF PHYSICS PUBLISHING PHYSICAL BIOLOGY Phys. Biol. 2 (2005) S137S147 doi:10.1088/1478-3975/2/4/S08
• NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNN
• Mean-field conductivity in a certain class of networks M. V. Chubynsky1,2,
• Quantum Correction to the Pair Distribution Function V. A. LEVASHOV,1
• AN ANALYSIS OF PROTEIN FOLDING BY DECODING THE HIERARCHY OF NATIVE-STATE STRUCTURAL INTERACTIONS
• Algorithms for three-dimensional rigidity analysis and a first-order percolation transition M. V. Chubynsky1,
• 0 2 4 6 8 10 Numberdensity(arbitraryunit)
• Dielectric function for a material containing hyperspherical inclusions to O(c2
• Pentagonal puckering in a sheet of amorphous graphene
• Local atomic structure of semiconductor alloys using pair distribution functions Jean S. Chung* and M. F. Thorpe
• Protein Unfolding under Force: Crack Propagation in a Network Adam M. R. de Graff,6
• Intrinsic limitations on ultimate device performance and reliability at ,,i... semiconductordielectric interfaces and ,,ii... internal interfaces
• Fitting Low-Resolution Cryo-EM Maps of Proteins Using Constrained Geometric Simulations
• Local structural variability and the intermediate phase window in network glasses A. Sartbaeva, S. A. Wells, A. Huerta,* and M. F. Thorpe
• Vibrations of icosahedron-based networks: Application to amorphous boron ISIR, Osaka University 8-1, Mihogaoka, Ibaraki, Osaka 567, Japan
• INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF PHYSICS: CONDENSED MATTER J. Phys.: Condens. Matter 16 (2004) S5055S5064 PII: S0953-8984(04)85835-1
• The flexibility window in zeolites ASEL SARTBAEVA, STEPHEN A. WELLS, M. M. J. TREACY AND M. F. THORPE*
• Philosophical Magazine, 1 May1 June 2004 Vol. 84, Nos. 1316, 13231331
• INSTITUTE OF PHYSICS PUBLISHING PHYSICAL BIOLOGY Phys. Biol. 2 (2005) S127S136 doi:10.1088/1478-3975/2/4/S07
• Networks, Flexibility and Mobility in N 6013 44. Schweinberger M, Snijders TAB (2006) Markov models for di-
• Quadrupolar Ordering in LaMnO3 Revealed from Scattering Data and Geometric Modeling A. Sartbaeva, S. A. Wells, and M. F. Thorpe
• 0360-5043/01/2702-$25.00 2001 MAIK "Nauka /Interperiodica"0160 Glass Physics and Chemistry, Vol. 27, No. 2, 2001, pp. 160166.
• Density fluctuations and the pair distribution function V. A. Levashov
• Proc. R. Soc. A (2009) 465, 35173530 doi:10.1098/rspa.2009.0307
• Elastic properties of rigid fiber-reinforced composites J. Chen and M. F. Thorpea)
• Nanotechnology Research Journal ISSN 1935-2484 Volume 2, Number 1, pp. 61-72 2008 Nova Science Publishers, Inc.
• research papers 22 doi:10.1107/S0108767309045206 Acta Cryst. (2010). A66, 2231
• Resistivity of boron-doped diamond microcrystals M. D. Jaeger, S. Hyun, A. R. Day,a)
• proteinsSTRUCTURE O FUNCTION O BIOINFORMATICS Generating stereochemically acceptable
• Sampling Protein Conformations and Pathways MARIA I. ZAVODSZKY,2
• Resistivity determination from small crystallites S. Hyun, M. F. Thorpe, M. D. Jaeger, and B. Golding
• Spectral function for a conducting sheet containing circular inclusions B. R. Djordjevic, J. H. Hetherington, and M. F. Thorpe
• IOP PUBLISHING PHYSICAL BIOLOGY Phys. Biol. 4 (2007) 6063 doi:10.1088/1478-3975/4/1/N01
• J. Phys.: Condens. Matter 11 (1999) 30753090. Printed in the UK PII: S0953-8984(99)97589-6 Lattice and continuum theories of Huang scattering
• VOLUME 84, NUMBER 9 P H Y S I C A L R E V I E W L E T T E R S 28 FEBRUARY 2000 Spectral Function of Composites from Reflectivity Measurements
• Last Name First Name PHS 110 10993 TBD 6 labs 10994 TBD TBD