Letní škola vakuové techniky 2025 (Summer school of vacuum technology 2025)

2 Jun 2025, 09:00 → 5 Jun 2025, 16:00 Europe/Prague

Anna Macková (ÚJF AV ČR), Antonín Fejfar (Institute of Physics, Czech Academy of Sciences), Karel Mašek (MFF UK)

 

LETNÍ ŠKOLA VAKUOVÉ TECHNIKY 2025

SUMMER SCHOOL OF VACUUM TECHNOLOGY 2025

2. až 5. června 2025

(June 2 to 5, 2025)

v hotelu Jitřenka v Konstantinových Lázních

(in hotel Jitřenka in Konstantinovy Lázně) 

 

ZAMĚŘENÍ LETNÍ ŠKOLY:

„Nové možnosti špičkového výzkumu v ČR“ 

Program LŠVT 2025 je plánován od pondělí 2. 6. večer do čtvrtka 5. 6. v poledne. Součástí LŠVT 2025 bude i tradiční firemní večer (středa). Podobně jako loni, i letošní LŠVT bude probíhat v anglickém jazyce, abychom umožnili účast i cizojazyčných účastníků.

Téma školy je zaměřeno na představení možností současného špičkového výzkumu v České republice. Na zajímavých příkladech budou představeny možnosti nových výzkumných infrastruktur, které je možno využít jak pro základní výzkum, tak i v řadě moderních aplikací. Možnosti výzkumných infrastruktur budou představeny renomovanými odborníky. Škola je koncipována tak, aby podala ucelenou informaci i těm pracovníkům, kteří v oboru začínají. Stručné anotace přednášek bude možné nalézt na webových stránkách ČVS. Bližší informace o letní škole včetně přihlašování naleznete na webu ČVS www.vakspol.cz.

 

---

 

FOCUS OF SUMMER SCHOOL:

„New Facilities for the Top Notch Research in the Czech Republic“

The Summer School of Vacuum Technology 2025 (SSVT 2025) program is planned from the evening of Monday 6/02 to Thursday 6/05 at noon. The traditional company evening (Wednesday) will also be part of the school. Similar to last year, this year's SSVT will be held in English to enable the participation of foreign-speaking participants.

The theme of the school is focused on presenting the possibilities of current cutting-edge research in the Czech Republic. Interesting examples will be used to present the possibilities of new research infrastructures, which can be used both for basic research and in a number of modern applications. The possibilities of research infrastructures will be presented by renowned experts. The school is designed to provide comprehensive information even to those workers who are starting out in the field. Brief lecture notes will be available on the ČVS website. More information about the summer school, including registration, can be found on the CVS website www.vakspol.cz.

Odkaz na LŠVT na www.vakspol.cz

Monday 2 June

16:00 → 18:00 Příjezd | Arrival

18:00 → 19:00 Večeře | Dinner

19:00 → 21:00 Registrace | Registration

21:00 → 00:00 Volný čas | Free time

Tuesday 3 June

08:50 → 09:00 Zahájení LŠVT 2025 | Opening

Speaker: Karel Mašek (MFF UK)

09:00 → 10:15 The Queen of Vacuum Chambers and the Doors She Opens

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.

Speaker: Filip Křížek (Institute of Physics AS CR)

10:15 → 10:45 Coffee break

10:45 → 12:00 Radiocarbon dating: From early settlements to illegal ivory

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. The MILEA AMS system enables precise and robust measurements of radiocarbon and other difficult-to-measure radionuclides. CRL’s research spans a broad chronological spectrum, providing new insights into various periods of human history—from early human settlement in Central Europe, through Neolithic subsistence strategies and the Iron Age, to the Middle Ages. In addition, CRL also addresses contemporary challenges, such as dating ivory to support efforts in combating illegal wildlife trade.

Speaker: Kateřina Pachnerová Brabcová (Nuclear Physics Institute AS CR)

12:00 → 13:00 Oběd | Lunch

15:00 → 16:15 New materials and characterisation techniques for magnonic applications

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 concepts of magnonics, discuss the current devices and computational concepts, and the most common materials and characterisation techniques used in this field. I will also present our recent results in the development of magnetic (meta)materials for magnonic applications and in the development of characterisation techniques suitable for probing magnons, such as propagating spin wave spectroscopy and Brillouin light scattering spectroscopy and microscopy.

Speaker: Michal Urbánek (CEITEC Brno University of Technology)

16:15 → 16:45 Coffee break

16:45 → 18:00 Plasmonics for single biomolecule analysis

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 spectroscopy and microscopy – based techniques that, when combined with micro/nanofluidic devices and functional biointerfaces, allow for the analysis of biomolecules with unpreceded accuracy. In particular, there will be given a focus to topics embraced by the OPJAK project Sensors and Detectors for Future Information Society that are spanning from plasmonic biosensor technologies for single molecule detection assays, plasmonic substrates for vibrational spectroscopy – based fingerprinting of target analytes, nano-optics for label-free single molecule imaging, and development of advanced antifouling biofunctional coatings. The paper will introduce metallic nanostructures that are tailored for nanoscale manipulation with light in plasmon-enhanced fluorescence and surface-enhanced Raman spectroscopy and there will be as well discussed recently emerged optical scattering techniques for rapid single molecule tracking in nanochannels. The opportunities brought by the ability to detect target molecular species at ultimate single molecule level in complex biological fluids will be addressed and the necessity of using dedicated coatings for mitigation of unspecific sorption will be highlighted.

Speaker: Jakub Dostálek (Institute of Physics AS CR)

18:00 → 19:00 Večeře | Dinner

Wednesday 4 June

09:00 → 10:15 Contribution to high-performance Laser Science at the Extreme Light Infrastructure (ELI)

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 acceleration of electrons and ions, or drive secondary sources of ultra-short, high-intensity beams of light or particles which are used for imaging, diffraction and fast spectroscopic studies of materials and biological systems. Such technology is also developed to explore potential applications in laser-driven compact accelerators that could provide alternatives to current central facilities for synchrotron radiation and ion/neutron beams on a scale that could be located more readily in university departments, industrial laboratories or hospitals.
ELI operates as a single multi-site organisation with complementary facilities: (i) the ELI Attosecond Light Pulse Source (ALPS) facility in Hungary for the exploration of ultra-fast processes with uniquely high time resolution [https://www.eli-alps.hu]; (ii) the high-energy ELI Beamlines facility in the Czech Republic, with a particular emphasis on high peak laser intensity and delivery of secondary sources [https://eli-beams.eu]; and (iii) the Nuclear Physics (NP) facility in Romania for the combination of ultra-intense lasers with brilliant gamma-ray beams [https://www.eli-np.ro].
A particular feature and potential strength of ELI is the complementarity of the facilities, allowing for the support of a particularly wide range of multidisciplinary science and enabling the co-development of new, enabling technology – for example in laser optics, diagnostics or targets for the generation of secondary sources. The three ELI Facilities have been available to user access based on peer-reviewed excellence through open calls for proposals since 2022 and have attracted scientists across the globe requesting access (~360 proposals) to approximately 40 different instruments.
An overview of the current instruments offered by ELI, designed to support a wide range of scientific disciplines and research methodologies, will be given along with highlights of recent user experiments and planned commissioning and R&D activities.

Speaker: Daniele Margarone (ELI Beamlines Facility)

10:15 → 10:45 Coffee break

10:45 → 12:00 FORTE prestissimo

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 experiments at CERN, where we study fundamental interactions and extreme states of matter; then we will discuss how we hunt for elusive neutrinos; and finally, we will see how astro-particle physicists measure cosmic rays whose energy exceeds by many orders of magnitude the capabilities of existing man-made accelerators.

Speaker: Filip Křížek (Nuclear Physics Institute, Czech Academy of Sciences)

12:00 → 13:00 Oběd | Lunch

13:00 → 18:00 Free time

18:00 → 19:00 Večeře | Dinner

20:00 → 00:00 Firemní večer | Company evening

Thursday 5 June

09:00 → 10:15 AMULETs – next-generation advanced materials

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 material engineering and advanced multiscale materials. The project’s innovative approach is based on multiscale engineering, combining experimental and theoretical research with the development and production of application-specific materials (AMULETs). These materials undergo precise subnanometer-scale modifications to create universal functional building blocks, which are then non-destructively integrated into multidimensional architectures. This strategy enables the design of next-generation materials with tailored properties and broad application potential. The talk will summarize key aspects of the AMULET research strategy and the most significant achieved results.

Speaker: Jana Kalbačová Vejpravová (Faculty of Mathematics and Physics, Charles University)

10:15 → 10:45 Coffee break

10:45 → 12:00 Functionalities of Ferroic Materials: from Mathematics to 3D APT

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 spatial and temporal scales, both in experiments and in theory. The finest spatial scale in ferroics is the atomistic one, treated theoretically by first-principles and molecular dynamics simulations; obtaining relevant experimental data for such purposes requires an imaging technique with a comparable resolution. For this reason, the project has an ambition to build and operate a 3D atom probe tomography (3D APT) facility in Prague, the first of its kind in the former Central and Eastern Europe.

Speaker: Hanuš Seiner (Institute of Thermomechanics AS CR)

12:00 → 12:10 Zakončení LŠVT 2025 | Closing

Speaker: Karel Mašek (MFF UK)

12:10 → 13:10 Oběd | Lunch