Diffractive optical elements in single crystal diamond

We demonstrate the design, fabrication, and experimental characterization of near-field binary phase transmission diffractive optical elements (DOEs) in single crystal diamond. Top-hat and arbitrary pattern DOE beam shapers were numerically optimized using an iterative Fourier transform algorithm (IFTA). Commercially available single crystal diamond plates (3 mm x 3 mm x 0.3 mm) were patterned using hardmask deposition (alpha-Si), e-beam lithography, and O-2 plasma-based diamond reactive ion etching. The resulting binary phase relief patterns were characterized using scanning electron microscopy (SEM) and atomic force microscopy (AFM). Experimental characterization of the single crystal diamond DOES in transmission at lambda = 532 nm confirms excellent uniformity of the resulting top-hat beam profile as required in copper welding applications. (C) 2020 Optical Society of America

Diffractive optical elements in single crystal diamond

Structural study of nickelate based heterostructures

From pulsed-DCMS and HiPIMS to microwave plasma-assisted sputtering: Their influence on the properties of diamond-like carbon films

Concrete cancer : characterization of Alkali Silica Reaction early stage products by electron microscopy

From pulsed-DCMS and HiPIMS to microwave plasma-assisted sputtering: Their influence on the properties of diamond-like carbon films

Concrete cancer : characterization of Alkali Silica Reaction early stage products by electron microscopy

Structural study of nickelate based heterostructures