A lattice model exhibiting radiation-induced anomalous conductivity
J.C. Kimball, Keeyung Lee
TL;DR
This paper introduces a lattice model that demonstrates anomalous conductivity under combined magnetic and electromagnetic radiation, potentially explaining zero-resistance states observed experimentally.
Contribution
It presents a novel lattice-based model showing radiation-induced anomalous conductivity, linking theoretical predictions to experimental zero-resistance phenomena.
Findings
Demonstrates unusual conductivity under magnetic and electromagnetic radiation
Suggests a possible explanation for zero-resistance states
Provides a theoretical framework for radiation-induced conductivity anomalies
Abstract
A lattice-based model exhibits an unusual conductivity when it is subjected to both a static magnetic field and electromagnetic radiation. This conductivity anomaly may explain some aspects of the recently observed "zero-resistance states". PACS: 72.40+w, 73.40-c, 73.63 Keywords: Zero-resistance states, negative conductivity, lattice model
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Taxonomy
TopicsTheoretical and Computational Physics · Thermal properties of materials · Advanced Physical and Chemical Molecular Interactions