(PDF) STIR: Novel Electronic States by Gating Strongly

STIR: Novel Electronic States by Gating Strongly Correlated Materials

doi 10.21236/ad1010367

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February 1, 2016

Authors

David Goldhaber-Gordon

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Defense Technical Information Center

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STIR: Novel Electronic States by Gating Strongly Correlated Materials

doi 10.21236/ad1010367

Full Text

Abstract

Date

Authors

Publisher

Related search

Strongly Correlated States of Ultracold Rotating Dipolar Fermi Gases

Competing Ground States of Strongly Correlated Bosons in the Harper-Hofstadter-Mott Model

Many-Body Effects on the Capacitance of Multilayers Made From Strongly Correlated Materials

Predictive Capability for Strongly Correlated Systems: Mott Transition in MnO, Multielectron Magnetic Moments, and Dynamics Effects in Correlated Materials

First-Principles Electronic Structure Calculations of Strongly Correlated Electron Systems: DFT+U and DFT+DMFT

Quantum Ripples in Strongly Correlated Metals

Strongly Correlated Oxides for Energy Harvesting

Simulation of Strongly Correlated Fermions in Two Spatial Dimensions With Fermionic Projected Entangled-Pair States

Strongly Correlated Quantum Walks in Optical Lattices