Printed networks of nanoparticles (e.g., nanodots, nanowires, nanosheets) are important for a range of electronic, sensing and energy storage applications. Characterizing the temperature dependence of ...

This work proposes a computational approach to estimate the equivalent resistance through which current can flow transversely in a no-insulation (NI) coil wound with High-Temperature Superconducting ...

Using previous measurements as a reference, correction factors are used to analytically estimate seasonal changes in the soil resistivity and seasonal changes in the resistance of a driven-rod earth ...

Quantum Resistivity, Quantum Dielectricity, Giant Magneto Resistance, Quantum Hall Effect and Conductance 1. Introduction Experimental results in quantum physics since last three decades brought ...

Formulas for quantum resistivity (Quantum conductivity) and quantum conductance are developed by using fractional Fourier transform. Formulas for quantum behaviour of dielectricity and giant magneto ...

In practice, the phenomenon of resistance drift, i.e., the change of resistivity of amorphous phase change materials over time, precludes a simple implementation of the multibit storage on a chip ...

In the presence of a magnetic field, negative resistivity can produce a positive resistance, along with a sign reversal in the Hall effect, in GaAs/AlGaAs semiconductor devices.

Title of Legally Binding Document: Method of test for specific resistance (resistivity) of electrical insulating liquids Number of Amendments: 1 Equivalence: Superceding: Superceded by: LEGALLY ...

In any case, the material only achieved zero resistivity at ~10 K, even though the drop began at the much higher temperature of 35 K (figure 1). In addition, the authors had not, at the time they ...

The MythBusters did the famous experiment with a fired and dropped bullet. Should this work with air resistance?