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DTSTART;TZID=Europe/Paris:20250605T123000
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CREATED:20250530T083922Z
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SUMMARY:SO Colloquium: What can we expect and hope for in quantum computing?
DESCRIPTION:Quantum computing can solve specific problems much faster than classical computing concepts. Promising applications include material science and chemistry as well as optimizations problems Once quantum computing is fully matured\, it can even crack the most commonly used encryption methods and thus make emails\, credit cards\, bank transactions\, etc. insecure. In recent years\, quantum computing has made significant progress\, which raised interest of scientists\, investors and potential users. In this talk\, I would like to explain how quantum computers work and show what has been achieved so far. Finally\, I would like to explain which development steps are still necessary to unlock the full potential of quantum computers.  \nFecha: 05/06/2025 – 12:30Dr. Michael HartmannFiliación: Institute of Theoretical Physics\, Friedrich-Alexander Universität Erlangen-Nürnberg \n 
URL:https://www.iaa.csic.es/evento/so-colloquium-what-can-we-expect-and-hope-for-in-quantum-computing/
LOCATION:IAA – CSIC\, Glorieta de la Astronomía\, Granada\, España
CATEGORIES:SO Colloquium
ATTACH;FMTTYPE=image/png:https://www.iaa.csic.es/wp-content/uploads/2025/07/SO-COLLOQUIUM.png
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DTSTART;TZID=Europe/Paris:20250617T123000
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CREATED:20250530T083755Z
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UID:25723-1750163400-1750167000@www.iaa.csic.es
SUMMARY:SO Colloquium: The multiple aspects of Star-Planet Interactions
DESCRIPTION:Star-Planet Interactions (SPIs) encompass a range of physical processes that occur in close-in exoplanetary systems\, where the proximity between a star and its planet leads to complex magnetic\, gravitational\, and atmospheric effects. These interactions can influence both stellar activity and planetary evolution\, making them crucial to our understanding of exoplanetary environments\, habitability\, and observational signatures across multiple wavelengths. One key aspect of SPIs is their impact on the magnetic activity of the host star. Close-in planets\, particularly those orbiting magnetically active stars\, can modify the star’s magnetosphere\, potentially enhancing or suppressing stellar activity through mechanisms such as magnetic reconnection or tidal interactions. This could lead to observable changes in stellar spots\, flares\, and coronal mass ejections\, affecting not only the planet itself but also the broader space weather conditions of the system. On the planetary side\, interactions with the stellar magnetic field and wind can generate radio emissions\, providing a potential way to detect and characterise exoplanetary magnetospheres. These emissions\, similar to auroral radio signals observed in the Solar System (e.g.\, from Jupiter and its moons)\, could offer the first direct constraints on exoplanetary magnetic fields\, which play a fundamental role in shielding planetary atmospheres from erosion and determining their long-term habitability. In this seminar\, I will provide an overview of SPIs and their different manifestations\, discussing both the observational evidence and theoretical frameworks used to study these interactions. I will highlight the role of stellar magnetism in shaping SPI signals\, explain the challenges in detecting and interpreting these signatures\, and discuss how multi-wavelength observations—including optical\, X-ray\, and radio surveys—are helping us advance our understanding of exoplanetary atmospheres\, magnetic fields\, and their interaction with their host stars. \nFecha: 17/06/2025 – 12:30Dr. Rim FaresFiliación: United Arab Emirates University\, UAE \n 
URL:https://www.iaa.csic.es/evento/the-multiple-aspects-of-star-planet-interactions/
LOCATION:IAA – CSIC\, Glorieta de la Astronomía\, Granada\, España
CATEGORIES:SO Colloquium
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