As the size of materials, particles, and devices shrinks to nanometer, atomic, or even
quantum scale, it is more challenging to characterize their thermal properties reliably …

Radiative transfer of energy at the nanometre length scale is of great importance to a variety
of technologies including heat-assisted magnetic recording, near-field thermophotovoltaics …

Radiative heat transfer in Ångström-and nanometre-sized gaps is of great interest because
of both its technological importance and open questions regarding the physics of energy …

The temperature of a physical system is operationally defined in physics as “that quantity
which is measured by a thermometer” weakly coupled to, and at equilibrium with the system …

This work discusses measurement of thermal conductivity (k) of films using a scanning hot
probe method in the 3ω mode and investigates the calibration of thermal contact …

Simplified heat-transfer models are widely employed by heated probe scanning thermal
microscopy techniques for determining thermal conductivity of test samples. These …

Quantitative assessment of thermal properties by scanning thermal microscopy (SThM) is a
demanded technology, but still not yet available due to the presence of unpredictable …

Since the first scanning probe microscope was constructed in the 1980s, a number of
various near-field methods have been developed to investigate the nanoworld in terms of its …

Understanding energy transport and dissipation in nanoscale devices is of increasing
importance. Novel transport and dissipation phenomena are expected to arise in these …

We report a method for quantifying scanning thermal microscopy (SThM) probe–sample
thermal interactions in air using a novel temperature calibration device. This new device has …