Strongly magnetized plasmas, which are characterized by the particle gyrofrequency
exceeding the plasma frequency, exhibit novel transport properties. For example, recent …

Recent works have shown that strongly magnetized plasmas characterized by having a
gyrofrequency greater than the plasma frequency exhibit novel transport properties. One …

Plasmas in strong magnetic fields have been mainly studied in two distinct limiting cases—
that of weak and strong nonideality with very different physical properties. While the former is …

Magnetic fields influence ion transport in plasmas. Straightforward comparisons of
experimental measurements with plasma theories are complicated when the plasma is …

A generalized Ohm's law is derived to treat strongly magnetized plasmas in which the
electron gyrofrequency significantly exceeds the electron plasma frequency. Strong …

Strongly magnetized plasmas, characterized by having a gyrofrequency larger than the
plasma frequency ($\beta=\omega_c/\omega_p\gg 1$), are known to exhibit novel transport …

Magnetized plasmas are well known to exhibit a rich spectrum of collective modes. Here, we
focus on the density modes in dense or cold plasmas, where strong coupling effects alter the …

Studying strongly coupled plasmas can be effectively accomplished using molecular
dynamics (MD) simulations. We have developed an advanced MD simulation code that can …

Coulomb collisions in plasmas are typically modeled using the Boltzmann collision operator
or its variants. These apply to weakly magnetized plasmas in which the typical gyroradius of …

Antimatter appears in nature only in tiny quantities relative to matter for reasons not yet fully
understood. To address this open question, a better understanding of the fundamental …