Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR 07010581 Nancy Sandler1,

Slides:

Advertisements

Similar presentations

Kameshwar K. Yadavalli, Alexei O. Orlov, Ravi K. Kummamuru, John Timler, Craig Lent, Gary Bernstein, and Gregory Snider Department of Electrical Engineering.

Advertisements

Network Layer: Logical Addressing. 4-1 IPv4 ADDRESSES An IPv4 address is a 32-bit address that uniquely and universally defines the connection of a device.

How hot can it get? The two-stage Kondo effect (KE) behaves pretty much like a set of Russian dolls: open one, and there is a smaller one inside. Through.

Laterally confined Semiconductor Quantum dots Martin Ebner and Christoph Faigle.

The Piping and Instrumentation Diagram Schematic of a control system –more detailed than process flow diagram –does not include values of parameters Used.

UNIVERSITY OF NOTRE DAME Xiangning Luo EE 698A Department of Electrical Engineering, University of Notre Dame Superconducting Devices for Quantum Computation.

Deterministic teleportation of electrons in a quantum dot nanostructure Deics III, 28 February 2006 Richard de Visser David DiVincenzo (IBM, Yorktown Heights)

Numerical study of transport properties of carbon nanotubes Dhanashree Godbole Brian Thomas Summer Materials Research Training Oakland University 2006.

Department of Electronics Nanoelectronics 18 Atsufumi Hirohata 12:00 Wednesday, 11/March/2015 (P/L 006)

Enhancement of Kondo effect through Rashba spin-orbit interactions. Nancy Sandler Dept. of Physics and Astronomy Ohio University In collaboration with:

Test for entanglement: realignment criterion, entanglement witness and positive maps Kai Chen † CQIQC, Toronto, July 2004 † Kai Chen is now a postdoctoral.

Atomic Scale Analysis of Nanostructures Gregory B. Thompson, University of Alabama, DMR Intellectual Merit Ta enrichment at a triple junction grain.

2005 Materials Computation Center External Board Meeting The Materials Computation Center Duane D. Johnson and Richard M. Martin (PIs) Funded by NSF DMR.

KONDO EFFECT IN BILAYER GRAPHENE Diego Mastrogiuseppe, Sergio Ulloa & Nancy Sandler Department of Physics & Astronomy Ohio University, Athens, OH.

MATERIALS RESEARCH NETWORK – COLLABORATIVE RESEARCH: DECOHERENCE, CORRELATIONS AND SPIN EFFECTS ON NANOSTRUCTURED MATERIALS NANCY P. SANDLER, OHIO UNIVERSITY,

Quantum Dot Nucleation in Glass Microsphere Resonators Anu Tewary (student) and Mark Brongersma (PI) Stanford University, DMR A thin layer of Si-rich.

The discovery of the fractional quantum Hall state at the quantum number 5/2 has reinvigorated studies of the two-dimensional electron gas. The prediction.

Figure 1. (a) SANS of responsive star PDMAEMA with increasing temperature, the solid lines represent model fitting. (b) Schematic representation of the.

Theory of Electrons in Solids Lu J. Sham, University of California San Diego, DMR Fig. 1 Nuclear bath trajectories An electron is confined in a.

Spin polarization with a twist Nancy P. Sandler, Ohio University, DMR MWN/CIAM COLLABORATION USA-Brazil-Chile A well-known relativistic effect,

Application of the Cluster Embedding Method to Transport Through Anderson Impurities George Martins Carlos Busser Physics Department Oakland University.

Materials World Network: Understanding & controlling optical excitations in individual hybrid nanostructures Gregory J. Salamo, University of Arkansas,

Nanoscale Science Research Centers Modeling Characterization Synthesis Design Center for Nanophase Materials Sciences A highly collaborative program in.

Imagine the device on the left as a tiny circuit in which a ‘diatomic molecule’ is hanging off a wire. When the molecule is occupied by a single electron.

MRSEC IEG and Broader Impacts Ben Taylor Assistant Director, Interdisciplinary Education Group University of Wisconsin-Madison.

NIRT: Building Nanospintronic and Nanomagnetic Structures: Growth, Manipulation, and Characterization at the Atomic Scale DMR Arthur R. Smith,

Bridging Atomistic to Continuum Scales – Multiscale Investigation of Self-Assembling Magnetic Dots in Heteroepitaxial Growth Katsuyo Thornton, University.

2LSU(2) regime: competition between Kondo and Intermediate Valence (a numerical collaboration) George Martins Physics Department Oakland University Carlos.

1 Pertemuan 2 Routers. Discussion Topics Introduction to WANs Router physical characteristics Router external connections Management port connections.

Spin-orbit interaction in semiconductor quantum dots systems

Control of Magnetism in Prussian Blue Analogue Films Mark W. Meisel, University of Florida, DMR Control of the magnetic properties of synthetic.

Flat Band Nanostructures Vito Scarola

Group Members:  Mahmudul Islam  Mohammed Abu Hanifa  SK. Ashadullah Al Galib  Kazi Saad CSE101 LAB PRESENTATION2.

Project #2: Hemodynamic Evaluation of Arteriovenous Fistula Sponsored by: the National Science Foundation Grant ID No: DUE Research by: Briana.

National Science Foundation Outcome: Unique vertical aligned nanocomposite thin films with multifunctionalities Impact: Highly strained and ordered nanostructured.

National Science Foundation Outcome: Unique vertical aligned nanocomposite thin films with multifunctionalities Impact: Highly strained and ordered nanostructured.

Scientific Cooperation

Single-molecule transistors: many-body physics and possible applications Douglas Natelson, Rice University, DMR (a) Transistors are semiconductor.

Quantum Phase Transition of Light: A Renormalization Group Study

Power-Law Correlated Disorder in Graphene and Square Nanoribbons

International mobility

Partnership between NMHU and OSU in Electronic, Optical and Magnetic Materials; DMR One step synthesis of fluorescent graphene quantum dots through.

Training Research Scientists: Fostering Independence

process mapping symbols

9/14/2018 2:22 AM THR2026 Set up secure and efficient collaboration for your organization with Office 365 Joe Davies Senior Content Developer Brenda Carter.

Correlator – Backend System Overview

Large Scale Metabolic Network Alignments by Compression

The Materials Computation Center. Duane D. Johnson and Richard M

Connection Grants November 24, 2015

Physics of Emergent Materials Workshop (POEM)

Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR Nancy Sandler1,

Strong coupling of a superradiant spin ensemble B. C. Rose, A. M

Coupling a Single Electron Spin to a Microwave Cavity

Partnership between NMHU and OSU in Electronic, Optical and Magnetic Materials; DMR One step synthesis of fluorescent graphene quantum dots through.

Reflections on Lessons Learned: The Center for Innovative Learning Technologies Roy Pea Stanford University AERA 2003 Chicago, Illinois.

Electronic devices based on nanostructures

Peripheral Devices

Connection Grants November 24, 2015

STM Differential Conductance of a Pair of Magnetic Adatoms

Mark S. Byrd Departments of Physics and Computer Science

Available at © University of Florida 2009.

SSHRC Institutional Grant University

Quantum Computing Hakem Alazmi Jhilakshi Sharma Linda Vu.

Parallel Circuits 119.

Óbuda University - Doctoral School on Safety and Security Sciences

Circuits _____________ ______________

Part IV Network layer 10. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Оюутны эрдэм шинжилгээний хурлын зорилго:

Alex King, Nathan Jordan, Dr. Oleksiy Svitelskiy

Presentation transcript:

Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR 07010581 Nancy Sandler1, Sergio E. Ulloa1, Kevin Ingersent2, and George Martins3 1Ohio Univ., 2Univ. of Florida-Gainsville, 3Oakland Univ. Sending or blocking current through a device with three quantum dots depends on their geometrical configuration and connections to leads. When 3 dots are aligned, with two connected to external leads (L and R) current flows if the dots are in resonance. Attaching a third lead (P) introduces decoherence and reduces the current. These results may have applications in the design of entangled quantum bits useful for quantum encryption codes. E. Vernek et al. In progress.

Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR 07010581 Nancy Sandler1, Sergio E. Ulloa1, Kevin Ingersent2, and George Martins3 1Ohio Univ., 2Univ. of Florida-Gainsville, 3Oakland Univ. Education: Projects included in this grant are within the research areas of several doctoral students from Brazil (Ginetom Diniz), Florida (Brian Lane), and Ohio (Ahn Ngo and Gregory Petersen) Ahn Ginetom Brian Gregory Postdoctoral fellows Mehdi Zarea, Edson Vernek and Carlos Büsser are actively working on different topics that have resulted in publications. They also presented their results in various national and international conferences. Mehdi presents a poster on graphene ribbons at the OU-CMSS science poster competition. Edson Carlos Büsser (Brazil/US) held the position of “traveling postdoctoral fellow” commuting between Oakland Univ. and OU. Carlos