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Título

Spectral green cathodoluminescence emission from surfaces of insulators with metal-hydroxyl bonds

Autor García-Guinea, Javier ; Garrido, Fernando ; López-Arce, Paula ; Correcher, Virgilio; Figuera, Juan de la
Palabras clave Aluminosilicates
Insulators
Metal-hydroxyl bond
Surfaces
Green-yellow emission
Cathodoluminescence
Fecha de publicación oct-2017
EditorElsevier
Citación Journal of Luminescence 190: 128-135 (2017)
ResumenOptical measurements of microscale crystals suggest a new model for the luminescence centers associated with classic spectral cathodoluminescence emissions, which has implications for their material and photonic properties. In particular, manganese impurities in aluminosilicate lattices are commonly associated with ultraviolet and green (UV&G) spectral cathodoluminescence (CL) emissions peaked at circa 280–290 nm and 550–570 nm. These UV&G emissions from insulator solids, composed of different metals, increase with the presence of hydroxyl groups by water dissociation, or hydro-peroxide decomposition, under ionizing or UV radiation exposure. The UV&G bands are found to be associated with surfaces of insulator solids as electron beams affecting only the external surface region –microns deep– of the samples. Since massive ice (HO at −10 °C) shows CL without UV&G bands, the origin must lie within hydroxyl groups in the chamber of the environmental scanning electron microscope that couple to surface metals. The increase of UV&G signals in insulator solids, including hydrothermal feldspars, low crystalline silica or synthetic SiO among others is commonly observed in samples after energetic hydrous treatments, The proposed mechanism consists of a nonspecific reaction electron-beam + 2 (Metal-OH) > HO + O + photons, that agrees with radiolytic models but not with ligand field theory. Knowledge of this process might be useful to evaluate geological samples for dosimetry or dating purposes employing luminescence techniques.
URI http://hdl.handle.net/10261/155456
Identificadoresdoi: 10.1016/j.jlumin.2017.05.039
issn: 0022-2313
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