Monday, February 26, 2024

 

Award-winning researcher dreams of stellar explosions and strives for equity and inclusion in academia


Professor Irene Tamborra from the Niels Bohr Institute receives the prestigious Elite Research Prize and DKK 1.2 million in honor of her research in astrophysics


Grant and Award Announcement

UNIVERSITY OF COPENHAGEN - FACULTY OF SCIENCE

Professor Irene Tamborra from the Niels Bohr Institute 

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THE PROFESSOR FROM THE UNIVERSITY OF COPENHAGENS NIELS BOHR INSTITUTE FINDS HERSELF AT THE TOP OF A LIST OF YOUNG, WORLD-CLASS DANISH RESEARCHERS – AND IS NOW RECEIVING THE MINISTRY OF HIGHER EDUCATION AND SCIENCE'S ANNUAL ELITE RESEARCH PRIZE.

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CREDIT: OLA JAKUP JOENSEN




She studies the giant explosions of dying stars and dreams of experiencing and extracting data from a supernova close to Earth. Professor Irene Tamborra from the Niels Bohr Institute also tirelessly promotes equity and inclusion in research. Today she receives the prestigious Elite Research Prize and DKK 1.2 million in honor of her research in astrophysics.

 

"I am fascinated by anything that explodes in the sky," Professor Irene Tamborra says as she begins to describe her research. The professor from the University of Copenhagens Niels Bohr Institute finds herself at the top of a list of young, world-class Danish researchers – and is now receiving the Ministry of Higher Education and Science's annual Elite Research Prize.

Professor Tamborra has provided pioneering contributions to an entirely new area of astrophysics known as 'multi-messenger astrophysics'. Since joining the Niels Bohr Institute in 2016, she has established a world-leading group in this new emerging field that studies explosive and energetic events in our Universe, such as supernova explosions, the merger of two neutron stars, and other exotic objects that we are just discovering in the sky.   

"To find out what goes on in the core of these energetic cosmic booms, we now have the exciting opportunity to combine photons, neutrinos, and gravitational waves. Just as we humans use all our senses to explore our surroundings, we combine the information carried by these different cosmic messengers to find answers about fascinating astrophysical objects, fundamental physics, and the cosmic origin of the elements making the periodic table," explains Irene Tamborra.

The dream of a stellar explosion in our backyard

As massive stars explode they emit cosmic messengers with enormous power sending clues about the engine powering stellar collapses to researchers.

The collapse of a massive star, leading to a colossal explosion that can outshine the entire galaxy, results in the emission of neutrinos, photons and gravitational waves that we can detect on Earth. The origin of the atoms in our body can be ultimately traced back to supernova explosions and these cosmic explosions are therefore essential to our life. This is why it is so important to figure out how they work," says Professor Tamborra.

Scientists observed for the first time a supernova in neutrinos in 1987. This stellar collapse occurred very close to the Milky Way, in the Large Magellanic Cloud.  At the time, astronomers werent equipped with the telescopes and measuring instruments available today. Therefore, one of Tamborras greatest dreams is for another supernova to occur close enough to Earth for her research group to learn from it.

"It would be absolutely wonderful because we would be able to measure a million times more particles from the explosion than we could forty years ago and we would be finally able to test our understanding of how these objects work," she says.

Irene Tamborra's discoveries have born groundbreaking new understandings in astrophysics. For example, her research shows that neutrinos – the smallest and second most abundant sub-atomic particles in the universe after photons – play an important role in the physics of supernovae and the merger of two neutron stars, and that these particles can deliver crucial insights from these fascinating cosmic phenomena, which cannot be obtained through electromagnetic radiation.

An inclusive environment in a male-dominated field

In addition to the modeling of cosmic explosions of various types, the researcher is actively engaged in promoting equity and diversity in Academia. It is no secret that there are too few women in STEM fields, but the gender ratio in theoretical (astro) physics is even more skewed. This is a fact that the researcher has experienced firsthand in her own professional trajectory. 

"Throughout my career, I've become accustomed to being the only woman in the roomor on the entire floor. It has made me feel out of place, which shouldnt be the case. Therefore, I try to create an inclusive and welcoming environment in my group, independently of gender, scientific or cultural backgrounds," she says and stresses the upsides in having a diverse research group:   

"By having a diverse environment, both with regards to gender and scientific backgrounds, we approach problems differently, which is a huge strength that makes us more creative and encourages more interesting discussions than if we were all alike," concludes Irene Tamborra.

The award will be presented today, 26 February 2024, at 13:00 by H.M. The Queen and the Minister for Higher Education and Science.  Read more about the Elite Research Prize here.

(Box) More about Irene Tamborra:

Irene Tamborra is Italian. She is Professor at the Niels Bohr Institute, University of Copenhagen, where she leads the Particle Astrophysics group. She is also Mercator Fellow (equivalent of Visiting Professor) at the Max Planck Institutes for Physics and Astrophysics in Garching, Germany.

Irenes research activity is at the interface between astrophysics and particle physics. Her work focuses on the violent universe, especially on stellar explosions and transient astrophysical events, aiming at unveiling what can be learnt by adopting neutrinos, photons and gravitational waves as probes of the physics of these sources. She is also interested in modeling (quantum) particle transport and particle acceleration in astrophysical outflows, physics beyond the Standard Model, and nucleosynthesis of the heavy elements.

She is the recipient of several international awards for her research, including the MERAC Prize from the European Astronomical Society, the Duggal Award from the International Union of Pure and Applied Physics, and the European Research Council Consolidator Award. 

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