I will briefly introduce Molecular Beam Epitaxy, which is the leading technique for growth of ultra-pure materials in ultra-high vacuum. I will place this unique technique into the context of research of material systems designed for applications in quantum information processing. Finally, I will share some of the research experiences that MBE has enabled me to explore throughout my career.
Radiocarbon dating is a key tool in archaeology and Quaternary Earth sciences, as it is one of the few methods that allows for absolute age determination. The Czech Radiocarbon Laboratory (CRL) at the Nuclear Physics Institute of the CAS operates state-of-the-art infrastructure for its research, including Accelerator Mass Spectrometry (AMS), the only facility of its kind in the Czech Republic....
Magnonics is the field of science that studies the physical properties of spin waves and uses them for data processing. Scalability down to atomic dimensions, operation in the GHz to THz frequency range, exploitation of pronounced nonlinear and non-reciprocal phenomena, compatibility with CMOS are just a few of the many advantages offered by magnons. In this talk I will introduce the basic...
Detection and interaction analysis of chemical and biological species have become essential in numerous fields important to modern human society including health sector (biomarker-based diseases diagnosis and development of therapeutic drugs), environmental monitoring (analysis of pollutants), and safety (detection of harmful pathogens). There will be discussed recent advances in optical...
The Extreme Light Infrastructure (ELI) is a research facility that provides a wide range of scientists with access to the largest and most diverse set of high-performance laser systems in the world [https://eli-laser.eu]. Lasers are used to study the fundamentals of interaction between matter and ultra-high-intensity, ultra-fast light pulses, including plasma physics and relativistic...
The FORTE project interconnects the research carried out in the Czech Republic in particle physics, astro-particle physics, cosmology and gravitation. These fields are key to understanding the principles underlying our universe and determining its past and future evolution. In the talk, we will illustrate the research being carried out within the FORTE project at the high energy physics...
The development of materials with tailored properties and their seamless integration into functional structures is a cornerstone of modern materials science. The AMULET project advances this field through high-impact, interdisciplinary research with globally significant implications. To achieve this, the AMULET consortium brings together expertise across all critical aspects of complex...
The talk will introduce the FerrMion project, the main aim of which is to develop tools for transferring unique functional behaviours of ferroic solids onto engineering and application levels. The project encompasses a broad range of scientific disciplines, ranging from the calculus of variation to additive manufacturing. A big emphasize in the project is put on bridging between various...
