Thermal transport is a fundamental mechanism of energy transfer process quite distinct from
wave propagation phenomena. It can be manipulated well beyond the possibilities offered …

The paradigm shift of Hermitian systems into the non-Hermitian regime profoundly modifies
inherent property of the topological systems, leading to various unprecedented effects such …

Linear mechanical systems with time-modulated parameters can harbor oscillations with
amplitudes that grow or decay exponentially with time due to the phenomenon of parametric …

We propose a phase-biased non-Hermitian Josephson junction (NHJJ) composed of two
superconductors mediated by a short non-Hermitian link. Such a NHJJ is described by an …

Non-reciprocity has recently been achieved in static fields by mechanical metamaterial that
combines large non-linearity and asymmetric geometry. Novel devices are then designed to …

The non-Hermitian skin effect has been applied in multiple fields. However, there are
relatively few models in the field of thermal diffusion that utilize the non-Hermitian skin effect …

Nonreciprocal devices are crucial components in optical information processing and chiral
quantum networks. By investigating the topological property and the nonreciprocity in a one …

Thermal nonreciprocity plays a vital role in chip heat dissipation, energy-saving design, and
high-temperature hyperthermia, typically realized through the use of advanced …

We present a general framework for incorporating non-reciprocal interactions into the Ising
model with Glauber dynamics, without requiring multiple species. We then focus on a model …

Abstract Topological Anderson phases (TAPs) offer intriguing transitions from ordered to
disordered systems in photonics and acoustics. However, achieving these transitions often …