Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byMay Eaton Modified over 5 years ago

Similar presentations

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

1 Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR Nancy Sandler1, Sergio E. Ulloa1, Kevin Ingersent2, and George Martins3 1Ohio Univ., 2Univ. of Florida-Gainsville, 3Oakland Univ. When two quantum dots are connected in parallel to external leads, the conductance through the system at different temperatures is affected by the proximity to a quantum phase transition. The transition separates a magnetic ‘local moment’ phase from the non-magnetic exotic Kondo phase. Conductance as a function of applied voltage to one of the dots for various temperatures. L. Dias da Silva et al. Submitted 1

2 Materials Research Network – Collaborative Research: Decoherence, Correlations and Spin Effects on Nanostructured Materials. NSF-DMR Nancy Sandler1, Sergio E. Ulloa1, Kevin Ingersent2, and George Martins3 1Ohio Univ., 2Univ. of Florida-Gainsville, 3Oakland Univ. Education: The mini-workshop on “Numerical techniques in many-body systems’ that took place in OU, brought together the US members of this collaboration in June 2007. Luis Dias da Silva during his exposition on NRG methods. The workshop was organized by ‘travelling postdoc’ Carlos Büsser who talked about ECA methods. Profs. Ingersent, Martins, Sandler and Ulloa were joined by postdoctoral researchers Luis Dias da Silva and Carlos Büsser during 3 days of presentations and intensive discussions. 2

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

Similar presentations

ETC Trento Workshop Spectral properties of complex networks

ETC Trento Workshop Spectral properties of complex networks
Kondo Physics from a Quantum Information Perspective

Kondo Physics from a Quantum Information Perspective
GREG PETERSEN AND NANCY SANDLER SINGLE PARAMETER SCALING OF 1D SYSTEMS WITH LONG -RANGE CORRELATED DISORDER.

GREG PETERSEN AND NANCY SANDLER SINGLE PARAMETER SCALING OF 1D SYSTEMS WITH LONG -RANGE CORRELATED DISORDER.
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.

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.
D-wave superconductivity induced by short-range antiferromagnetic correlations in the Kondo lattice systems Guang-Ming Zhang Dept. of Physics, Tsinghua.

D-wave superconductivity induced by short-range antiferromagnetic correlations in the Kondo lattice systems Guang-Ming Zhang Dept. of Physics, Tsinghua.
“Strongly correlated electrons in bulk and nanoscopic systems” Theory of Condensed Matter Elbio Dagotto, Distinguished Professor, UT-ORNL.

“Strongly correlated electrons in bulk and nanoscopic systems” Theory of Condensed Matter Elbio Dagotto, Distinguished Professor, UT-ORNL.
Solid state realisation of Werner quantum states via Kondo spins Ross McKenzie Sam Young Cho Reference: S.Y. Cho and R.H.M, Phys. Rev. A 73, 012109 (2006)

Solid state realisation of Werner quantum states via Kondo spins Ross McKenzie Sam Young Cho Reference: S.Y. Cho and R.H.M, Phys. Rev. A 73, (2006)
Computational Physics - Monte Carlo Methods Dr. Guy Tel-Zur Lecture 9 Murmur by Piotr Wojtkowski, Version 08-12-2010-16:45.

Computational Physics - Monte Carlo Methods Dr. Guy Tel-Zur Lecture 9 Murmur by Piotr Wojtkowski, Version :45.
Center for Quantum Information ROCHESTER HARVARD CORNELL STANFORD RUTGERS LUCENT TECHNOLOGIES Spin effects and decoherence in high-mobility Si MOSFETs.

Center for Quantum Information ROCHESTER HARVARD CORNELL STANFORD RUTGERS LUCENT TECHNOLOGIES Spin effects and decoherence in high-mobility Si MOSFETs.
Avraham Schiller / Seattle 09 equilibrium: Real-time dynamics Avraham Schiller Quantum impurity systems out of Racah Institute of Physics, The Hebrew University.

Avraham Schiller / Seattle 09 equilibrium: Real-time dynamics Avraham Schiller Quantum impurity systems out of Racah Institute of Physics, The Hebrew University.
Small fields, big effects: results at left show the effect over the current going through a carbon nanotube (vertical axis), for different number of extra.

Small fields, big effects: results at left show the effect over the current going through a carbon nanotube (vertical axis), for different number of extra.
From Kondo and Spin Glasses to Heavy Fermions, Hidden Order and Quantum Phase Transitions A Series of Ten Lectures at XVI Training Course on Strongly Correlated.

From Kondo and Spin Glasses to Heavy Fermions, Hidden Order and Quantum Phase Transitions A Series of Ten Lectures at XVI Training Course on Strongly Correlated.
Enhancement of Kondo effect through Rashba spin-orbit interactions. Nancy Sandler Dept. of Physics and Astronomy Ohio University In collaboration with:

Enhancement of Kondo effect through Rashba spin-orbit interactions. Nancy Sandler Dept. of Physics and Astronomy Ohio University In collaboration with:
SNS picture “Recent Developments in the Study of Strongly Correlated Electronic Systems” E. Dagotto, UT-ORNL SNS 2006-8, HFIR Nanocenter (CNMS) March 2005.

SNS picture “Recent Developments in the Study of Strongly Correlated Electronic Systems” E. Dagotto, UT-ORNL SNS , HFIR Nanocenter (CNMS) March 2005.
High-pressure synthesis of new oxide Dy 2 Ge 2 O 7 and high-pressure study on crystal and magnetic structures of the perovskite LaCrO 3 John B. Goodenough,

High-pressure synthesis of new oxide Dy 2 Ge 2 O 7 and high-pressure study on crystal and magnetic structures of the perovskite LaCrO 3 John B. Goodenough,
PITP ACTIVITIES A. RESEARCH NETWORKS A set of research networks coordinates INTERNATIONAL RESEARCH COLLABORATIONS, which.

PITP ACTIVITIES A. RESEARCH NETWORKS A set of research networks coordinates INTERNATIONAL RESEARCH COLLABORATIONS, which.
Neutron Scattering from Geometrically Frustrated Antiferromagnets Spins on corner-sharing tetrahedra Paramagnetic phase Long Range Ordered phase (ZnCr.

Neutron Scattering from Geometrically Frustrated Antiferromagnets Spins on corner-sharing tetrahedra Paramagnetic phase Long Range Ordered phase (ZnCr.
● Problem addressed: Mn-doped GaAs is the leading material for spintronics applications. How does the ferromagnetism arise? ● Scanning Tunneling Microscopy.

● Problem addressed: Mn-doped GaAs is the leading material for spintronics applications. How does the ferromagnetism arise? ● Scanning Tunneling Microscopy.
KONDO EFFECT IN BILAYER GRAPHENE Diego Mastrogiuseppe, Sergio Ulloa & Nancy Sandler Department of Physics & Astronomy Ohio University, Athens, OH.

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,

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

Similar presentations

Ads by Google