论文信息 - Submicrometer-resolution mapping of ultraweak 355-nm absorption in HfO2 monolayers using photothermal heterodyne imaging

Submicrometer-resolution mapping of ultraweak 355-nm absorption in HfO2 monolayers using photothermal heterodyne imaging

Nanosecond-pulse UV-laser-damage initiation in multilayer coatings comprised from metal oxide as a high-index component, and silica oxide as a low-index material, is strongly linked to metal oxide. The nature of the absorbing species and their physical properties remain unknown because of extremely small sizes. Previous experimental evidence provided by high-resolution mapping of damage morphology points to a few-nanometer scale of these absorbers. This work demonstrates submicrometer mapping of 355-nm absorption in HfO2 monolayers using a recently developed photothermal heterodyne imaging technique. Comparison of absorption maps with spatial distribution of UV pulsed-laser- induced damage morphology allows one to better estimate the size and densities of nanoscale absorbing defects in hafnia thin films. Possible defect-formation mechanisms are discussed.

[1] J. Creighton,et al. Ultraviolet–visible absorption spectra of the colloidal metallic elements , 1991 .

[2] S. Papernov,et al. Localized absorption effects during 351 nm, pulsed laser irradiation of dielectric multilayer thin films , 1997 .

[3] A. Shluger,et al. Vacancy and interstitial defects in hafnia , 2002 .

[4] S. Papernov,et al. Correlations between embedded single gold nanoparticles in SiO2 thin film and nanoscale crater formation induced by pulsed-laser radiation , 2002 .

[5] Gerhard A Blab,et al. Photothermal heterodyne imaging of individual nonfluorescent nanoclusters and nanocrystals. , 2004, Physical review letters.

[6] Semyon Papernov,et al. Damage behavior of HfO2 monolayer film containing gold nanoparticles as artificial absorbing defects , 2005, SPIE Laser Damage.

[7] Susan D. Allen,et al. Nanoscale laser-induced spallation in SiO2 films containing gold nanoparticles , 2006 .

[8] Manyalibo J. Matthews,et al. The effect of lattice temperature on surface damage in fused silica optics , 2007, SPIE Laser Damage.

[9] Gregory J. Exarhos,et al. Laser-Induced Damage in Optical Materials: 2007 , 2008 .

[10] S. Papernov,et al. Testing asymmetry in plasma-ball growth seeded by a nanoscale absorbing defect embedded in a SiO2 thin-film matrix subjected to UV pulsed-laser radiation , 2008 .

[11] Laurent Gallais,et al. Study of luminescent defects in hafnia thin films made with different deposition techniques , 2009 .