However, designing an efficient heater to provide the temperature control is a challenge, especially for diffraction measurements where a large exit window is required to observe higher angle scattering. Thanks to bright synchrotron radiation and modern fast large-area detectors, temperature-dependent diffraction has become one of the routine tools. Nowadays, measurements as a function of temperature are often performed at synchrotrons. Temperature-dependent diffraction is one of the most powerful tools for characterizing solid materials, providing atomic-level detail on the mechanisms underlying structural phase transformations (Tomaszewski, 1992 ▸ Whatmore, 2017 ▸ Bassett & Brown, 1990 ▸) and chemical reactions (Bøjesen & Iversen, 2016 ▸ Epple, 1994 ▸ Bassett & Brown, 1990 ▸), and untangling different contributions in the thermal expansion coefficients (James et al., 2001 ▸ Bassett & Brown, 1990 ▸) to name a few. Temperature is an important thermodynamic field that defines the stability and functional behaviour of many materials.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |