We present a scalable approach for the optimization of flip-preventing energies in the
general context of simplicial mappings and specifically for mesh parameterization. Our …

The self-potential method enables non-intrusive assessment and imaging of disturbances in
electrical currents of conductive subsurface materials. It has an increasing number of …

Solving time-harmonic wave propagation problems by iterative methods is a difficult task,
and over the last two decades an important research effort has gone into developing …

We investigate the possibility that long tidal tails formed during compact object mergers may
produce optical transients powered by the decay of freshly synthesized r-process material …

The Anderson transition in random graphs has raised great interest, partly out of the hope
that its analogy with the many-body localization (MBL) transition might lead to a better …

This paper presents a numerical method for interactive (real-time) simulations, which
considerably improves the accuracy of the response of heterogeneous soft-tissue models …

We provide a pedagogical review on the calculation of highly excited eigenstates of
disordered interacting quantum systems which can undergo a many-body localization (MBL) …

We describe a new multifractal finite-size scaling (MFSS) procedure and its application to
the Anderson localization-delocalization transition. MFSS permits the simultaneous …

We present a flexible and scalable method for computing global solutions of high‐
dimensional stochastic dynamic models. Within a time iteration or value function iteration …

The disorder-induced metal-insulator transition is investigated in a three-dimensional simple
cubic lattice and compared for the presence and absence of time-reversal and spin …