Ultrafast femtosecond mode-locked fiber laser plays an indispensable role in medical
imaging, space ranging, ophthalmology, terahertz spectroscopy, material micromachining …

Abstract 2D transition metal carbides, nitrides, and carbonitides called MXenes have
attracted much attention due to their outstanding properties. However, MXene's potential in …

The incorporation of the material-based saturable absorber (SA) to generate mode-locked
fiber laser (MLFL) has been extensively explored and demonstrated. However, the material …

The industrialization and commercialization of optoelectronic devices require the exploration
of novel materials with high stability, nontoxicity, and large-scale manufacturing. The all …

Rapid development of DNA technology has provided a feasible route to creating nanoscale
materials. DNA acts as a self‐assembled nanoscaffold capable of assuming any three …

Recently, two-dimension transition metal carbides, carbonitrides, and nitrides called
MXenes have attracted huge attention due to their outstanding physical properties in various …

Optical modulators hold great promise for nonlinear optical and photonic devices. However,
current optical modulators are exclusively based on inorganic saturable absorbers such as …

In this paper, the Khater II analytical technique is used to examine novel soliton structures for
the fractional nonlinear third-order Schrödinger (3-FNLS) problem. The 3-FNLS equation …

The high-power lasers have important implications for present and future light-based
technologies; therefore, the protection measures against their high-intensity radiation are …

A photoreceptor on the retina acts as an optical waveguide to transfer an individual photonic
signal to the cell inside, which is determined by the refractive index of internal materials …