Phononic crystals and acoustic metamaterials are periodic structures whose effective
properties can be tailored at will to achieve extreme control on wave propagation. Their …

The concept of bound states in the continuum (BICs) in a simple cavity attracts much interest
in recent works in wave physics. The BICs are perfectly confined modes with an infinite …

We investigate theoretically and numerically the possibility of existence of Fano and acoustic-
induced transparency (AIT) resonances in a simple though realistic one-dimensional …

We provide theoretical and experimental evidence for the existence of topological Tamm
states at the interface between two stubbed photonic crystals (PCs) as a function of the …

Bound states in the continuum (BICs) are zero-width (infinite lifetime) trapped eigenmodes
that remain confined in the system even though they coexist with a continuum of extended …

A Friedrich–Wintgen bound state in the continuum (FW-BIC) is of particular interest in the
field of wave physics phenomena. It is induced via the destructive interference of two modes …

We propose a simple solid–liquid–solid triple layer biosensor platform based on bound
states in the continuum (BICs) and Fano resonances to detect the acoustic properties of …

We demonstrate analytically and numerically the possibility of existence of the analogues of
electromagnetic induced transparency (EIT) and electromagnetic induced reflection (EIR) in …

We study analytically and numerically the design of plasmonic demultiplexers based on
Fano and plasmonic induced transparency (PIT) resonances. The demultiplexers consist of …

We present an analytical and experimental study of the scattering parameters in a one
dimensional (1D) symmetric photonic crystal and their relation to the density of states (DOS) …