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Newsletter - September 18, 2024

Dear MARVEL'ers,

Please find below our latest newsletter, with highlights and news linked to the MARVEL community.  

This month, you can read about a new mathematical framework developed by MARVEL scientists which enables the calculation of the spectrum of a material and its thermodynamics behavior at the same time, including the total energy and the band structure. You can also learn about a "hero run" that was conducted on the new Swiss 'Alps' supercomputer, which demonstrated the efficiency and stability of AiiDA.

You can find out more about a new approach that allows the calculation of band structures of semiconductors in a simple way and at low computational cost, even in presence of spin-orbit coupling or complex magnetic configurations.  Read too about a new computational method which makes it possible to perform a thorough exploration of the energy landscape of magnetic materials.

Congratulations to former INSPIRE Potentials fellow Jente Clarysse, who was honoured at the recent graduation ceremony for the Department of Information Technology and Electrical Engineering, for her Master's thesis! (And please help us advertise the MARVEL INSPIRE Potentials Master's fellowships, with next deadline already on October 15.)

The MARVEL Junior Retreat took place last week, and over 60 participants gathered in St. Moritz. This year’s theme was “entrepreneurship, technology transfer, intellectual property rights”, and the goal was to help participants explore the opportunities for a career outside academia. You can read all about the event.

Finally, take note of next week's MARVEL seminar by Chalmers professor (and former MARVEL member!) Julia Wiktor, which will be dedicated to charge localization, dynamics, and phase transitions in halide perovskites.

Research highlights

The best of both worlds: combining accurate spectroscopy and thermodynamics for correlated materials

A new mathematical framework developed by MARVEL scientists at EPFL allows to calculate the spectrum of a material and its thermodynamics behavior at the same time, including the total energy and the band structure, and it does this even for complex, correlated materials. The method, published in an article in Physical Review Research, combines thermodynamics from DFT+U and spectra from GW, and was validated on transition metal oxides.

Computational marathon matches the efficiency of the AiiDA platform with the power of Switzerland Alps supercomputer

A group of MARVEL researchers from the Paul Scherrer Institute has conducted a "hero run" on the new Swiss supercomputer, occupying it entirely for about 20 hours with calculations managed remotely by the AiiDA software tools. The run demonstrated the efficiency and stability of AiiDA, that could seamlessly fill the entire capacity of an exascale machine, as well as the performance of the Alps supercomputer, that has been just inaugurated. All the results will soon be published on the Materials Cloud.

A paradigm shift in calculating the spectral properties of semiconductors

In a new article just published in Physical Review Research, Nicola Colonna from PSI and MARVEL and Antimo Marrazzo from Scuola Internazionale Superiore di Studi Avanzati (International School of Advanced Studies) in Trieste, Italy, introduce a new approach that allows calculating band structures of semiconductors in a simple way and at low computational cost, even in presence of spin-orbit coupling or complex magnetic configurations. The new method was validated on some well-studied materials and the results of the calculations proved in very good agreements with other well-established but more costly and unwieldy theories, such as many-body perturbation theory, and with experiments. This development will allow efficient and accurate computational screenings of materials databases and enable simulating complex materials under more realistic conditions, such as in presence of defects or at finite temperature.

A tool to explore the energy landscape of magnetic materials

A new computational method allows to perform a thorough exploration of the energy landscape of magnetic materials, which often have many possible solutions to the electronic structure problem. It allows to access many different starting points in terms of which orbitals are occupied by the electrons, and uses a global  algorithm to search systematically for all possible local minima of the energy in a material. The method, as well as its validation on many magnetic systems, has just been published in npj computational materials by scientists from Nicola Marzari's lab at EPFL. 

Read MARVEL Highlights here

Congratulations to a former MARVEL INSPIRE fellow!

Jente Clarysse wins the ETH medal

The former INSPIRE Potentials fellow was honoured at the recent graduation ceremony for the Department of Information Technology and Electrical Engineering, for her Master's thesis written in Mathieu Luisier's group at ETH Zurich. 

MARVEL seminar: Julia Wiktor

MARVEL seminar: "Charge localization, dynamics, and phase transitions in halide perovskites" (Julia Wiktor)

Sep 26, 2024, from 16:00 until 17:15, MED 2 1124 (Coviz2), EPFL + online

This MARVEL seminar will be given by Julia Wiktor, Assistant Professor at Chalmers university (Sweden). She will be giving a presentation entitled: "Charge localization, dynamics, and phase transitions in halide perovskites".

The MARVEL Junior Retreat

Entrepreneurships and tech transfer were the core themes of the 2024 MARVEL Junior Retreat

Over 60 participants gathered in St. Moritz from 10 to 13 September for the 6th MARVEL Junior Retreat, the event that every year brings together PhD students and postdocs from MARVEL groups, giving them an opportunity to discuss important career issues as well as their research work. This year’s theme was “entrepreneurship, technology transfer, intellectual property rights”, and the goal was to help participants explore the opportunities for a career outside academia.

INSPIRE Potentials

INSPIRE Potentials – MARVEL Master's Fellowships (12'000 CHF) in computational materials science, electronic-structure simulations, machine learning and big-data are available to outstanding women researchers for 6-month stays in research groups belonging to the NCCR MARVEL. In a field of science where women are still strongly underrepresented, the INSPIRE Potentials – MARVEL Master's Fellowships aim to support excellent female students in their Master's thesis projects, while giving them access to outstanding research facilities and environments. Already 53 fellows have been admitted.

The next deadline for submission is 15 October 2024. All the information is available at http://nccr-marvel.ch/inspire.

This month, you can read about the experience of Serena Bragadini.

A new INSPIRE Potentials fellow will join MARVEL for her Master's research project

We are happy to announce that Katja Moos (UniFR) was granted an INSPIRE Potentials – MARVEL Master's Fellowship after the April 2024 call. She will join the MARVEL lab of Michael Schüler for a 6-month research project — congratulations!

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