Laser Protection Properties of Multi-Band Non-Regularized Highly Reflective Films

Abstract: With the increasing exploitation of lasers, single-band laser protection has been extensively studied. However, single-band laser protection techniques have remained expensive and failed to meet protection requirements for multi-band lasers. In addition, the actual use of protective films requires a specific transmittance, which is generally not met by regular films. Here, we deposited three non-regularized highly reflective films using SiO2 as the low-refractive-index material and TiO2, HfO2, and Ta2O5 as the… Show more

“…In addition, the current research shows that among the materials currently used for laser protection, oxide materials are the preferred materials due to their high melting point, good stability, and high laser-induced damage threshold [16]. Among them, Ta 2 O 5 films deposited by ion-assisted electron-beam deposition (IAD) and HfO 2 films deposited by EBE have relatively high LIDTs [17][18][19][20][21].…”

A Dichroic Beamsplitter for the Laser Protection of Infrared Detectors

“…In addition, the current research shows that among the materials currently used for laser protection, oxide materials are the preferred materials due to their high melting point, good stability, and high laser-induced damage threshold [16]. Among them, Ta 2 O 5 films deposited by ion-assisted electron-beam deposition (IAD) and HfO 2 films deposited by EBE have relatively high LIDTs [17][18][19][20][21].…”

A Dichroic Beamsplitter for the Laser Protection of Infrared Detectors