Quark matter conductivity in strong magnetic background
B.Kerbikov
TL;DR
This paper calculates the quantum conductivity of quark matter in strong magnetic fields using condensed matter physics methods, finding it proportional to the square root of the magnetic field.
Contribution
It introduces a novel approach by applying condensed matter physics techniques to compute quark matter conductivity under strong magnetic fields.
Findings
Quantum conductivity scales with the square root of magnetic field strength.
Methodology bridges condensed matter physics and quantum chromodynamics.
Results provide insights into quark matter behavior in extreme magnetic environments.
Abstract
Applying the ideas and methods of condensed matter physics we calculate the quantum conductivity of quark matter in magnetic field. In strong field quantum conductivity is proportional to the square root of the field.
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