D. O. Science
3 Papers
D. O. Science is an academic researcher. The author has contributed to research in topics: Biology. The author has co-authored 2 publications.
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Papers
Reactivity of Stone-Wales defect in graphene lattice – DFT study
Aleksandar Z. Jovanovi'c,Ana S. Dobrota,Natalia V. Skorodumova,Igor A. Pavsti University of Belgrade - Faculty of Phys Chemistry,Belgrade,Serbia,Department of Materials Science,Engineering,School of Electrical Engineering,Management,K. R. I. O. Technology,Stockholm,Sweden,A. Physics,D. O. Science,Department of Astrophysical Sciences,Mathematics,Lulea University of Technology +17 more
TL;DR: This DFT study investigates the reactivity of graphene surfaces with Stone-Wales defects, finding enhanced binding with various adsorbates, including carbon and silicon, and demonstrating the impact of mechanical deformation on defect structure and adsorption behavior.
3
Learning diffusion coefficients, kinetic parameters, and the number of underlying states from a multi-state diffusion process: robustness results and application to PDK1/PKC$\alpha$, dynamics
Lewis R. Baker,Moshe T. Gordon,Brian P. Ziemba,Victoria Gershuny,Joseph J. Falke,David M. Bortz Department of Applied Mathematics,U Colorado,Boulder,CO 80309-0526,Department of PhysiologyBiophysics,University of Groningen Astronomy Dept.,1705 NE Pacific Street,Hsb Room G424,Box 357290,Seattle,WA 98195-7290,Departmentof Biochemistry,CO 80309-0596,D. O. Science,Office of Clinical Pharmacology,Office of Translational Sciences,Center for Biologics Evaluation,Research,U. Food,Drug Administration,S. Spring,Md.,Usa +27 more
- 16 Jun 2022
TL;DR: This work investigates a multi-state diffusion process that arises in the context of single particle tracking (SPT), wherein the motion of a particle is governed by a discrete set of diffusive states, and the tendency of the particle to switch between these states is modeled as a random process.
Peer Review
Searching for the sources of excess extragalactic dispersion of FRBs
Sunil Simha,Khee-Gan Lee,Jason X. Prochaska,Ilya Khrykin,Yu-Xin Huang,Nicolas Tejos,Lachlan Marnoch,Metin Ata,Lucas Bernales,Shivani Bhandari,Jeff Cooke,Adam Deller,Suart Ryder,Jielai Zhang University of California - Santa Cruz,Ca,USA.,Kavli Ipmu,Utias,T. U. O. Tokyo,Kashiwa,Chiba,Japan.,D. O. Science,National Space Development Agency of Japan,Osawa,Mitaka,Tokyo,I. D. F'isica,Pontificia Universidad Cat'olica de Valpara'iso,Valpara'iso,Chile,School of Mathematical,P. Sciences,M. University,Australia,Csiro,Space,Astronomy,Epping Australia,Astrophysics,Astrophotonics Research Centre,Sydney,A. C. O. E. F. A. A. I. 3. Dimensions,The Oskar Klein Centre,D. Physics,S. University,Albanova University Centre,Stockholm,Sweden,Astron,N. I. F. R. Astronomy,Dwingeloo,The Netherlands.,J. Eric,Centre for Gravitational Astrophysics,Supercomputing,S. U. Technology,Hawthorn,Vic,Arc Centre of Excellence for Gravitational Wave Discovery +59 more
- 13 Mar 2023
TL;DR: In this paper , the authors leverage the FLIMFLAM data to determine the source of the excess extragalactic dispersion measure (DM), compared to the Macquart relation estimate of four FRBs: FRB20190714A, FRB20200430A,FRB20200906A, and FRB 20210117A.