Piezo really works
Adaptive optics is useful to correct wavefront distortions, reflectance degradations and wavelength deviations. Here, piezoelectric films really work, as Muharrem was able to show experimentally as a proof of principle. The piezo film thickness can be adjusted by an externally applied voltage.
Making piezoelectric thin films - especially when deposited on glass substrates - is much more complicated than applying these materials in bulk. Therefore Muharrem used so-called nanosheets to grow the highest quality piezo films. These films showed record high response to applied voltages, especially when the film structure was forced to grow in columnar structures.
‘Industrial partner Carl Zeiss SMT showed great interest in my findings,’ Muharrem states. ‘My research was really interdisciplinary, involving the Industrial Focus Group XUV Optics of professor Fred Bijkerk, the Laser Physics & Non-linear Optics group of professor Klaus Boller, and the Inorganic Materials Science Group of professor Guus Rijnders. Fred Bijkerk and Klaus Boller were my promoters. It is a big advantage that all these expertise and equipment are united within the Mesa+ Institution.’
Muharrem published articles in Applied Physics Letters, Journal of Physics D: Applied Physics and Optics Express. Muharrem: ‘Now I am working on a post-doc project concerning spectroscopy aspects of EUV sources in order to characterize the spectral quality of different sources. In the future an academic career as well as an R&D job within industry appeals to me. Both are challenging, though in different ways. Electronics-engineering, optics, holography and 3D imaging are fields of research I am very much interested in. During the PhD project I’ve learned the basics of materials science as well, which can be of great use in future jobs.’