BEGIN:VCALENDAR VERSION:2.0 PRODID:-//TYPO3/NONSGML Calendarize//EN BEGIN:VEVENT UID:calendarize-7th-scientific-seminar-of-the-institute-of-numerical-modelling DTSTAMP:20251203T104446Z DTSTART:20251204T110000Z DTEND:20251204T123000Z SUMMARY:7th Scientific Seminar of the INM DESCRIPTION:Sergey is a Research Assistant at the Paul Scherrer Institut (PSI)\, an organization INM has a long-term partnership with in the field of multiphase MHD\, and he is also a Research Assistant at the ETH-Z Quantum Center. Sergey will present his latest work in the field of plasma physics\, and will speak about "Radiative Signatures of Magnetic Reconnection: An Approach to Remote Probing of Reconnection Dynamics". \nINM Weekly Seminar | Meeting-Join | Microsoft Teams\nSergey Konstantin Ermakov – “Radiative Signatures of Magnetic Reconnection: An Approach to Remote Probing of Reconnection Dynamics”https://arxiv.org/abs/2508.10768\nMagnetic reconnection drives a wide range of astrophysical phenomena\, including geomagnetic storms\, solar flares\, and activity in blazars. However\, direct measurement of key reconnection observables remains challenging due to the remote and extreme nature of these environments. While high-energy particle showers observed on Earth are often attributed to reconnection\, the underlying mechanisms are not fully understood\, and clear diagnostic signatures are lacking. We present a theoretical\, data-driven approach for identifying reconnection radiation signatures and enabling remote diagnostics of reconnection in astrophysical setting s through radiation spectra. Using particle-in-cell (PIC) simulations of magnetic reconnection\, we generate radiation spectra and establish connections between spectral features and the underlying reconnection dynamics. We develop a method to estimate the ratio of the reconnection electric field to the plasmoid magnetic field from spectral data. Analytic calculations show that other parameters can be extracted in the ultra-relativistic reconnection regime\, such as the magnetic field or the current sheet width. X-ALT-DESC;FMTTYPE=text/html:

Sergey is a Research Assistant at the Paul Scherrer Institut (PSI)\, an organization INM has a long-term partnership with in the field of multiphase MHD\, and he is also a Research Assistant at the ETH-Z Quantum Center. Sergey will present his latest work in the field of plasma physics\, and will speak about "Radiative Signatures of Magnetic Reconnection: An Approach to Remote Probing of Reconnection Dynamics". \;

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INM Weekly Seminar | Meeting-Join | Microsoft Teams

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Sergey Konstantin Ermakov – “Radiative Signatures of Magnetic Reconnection: An Approach to Remote Probing of Reconnection Dynamics”
https://arxiv.org/abs/2508.10768

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Magnetic reconnection drives a wide range of astrophysical phenomena\, including geomagnetic storms\, solar flares\, and activity in blazars. However\, direct measurement of key reconnection observables remains challenging due to the remote and extreme nature of these environments. While high-energy particle showers observed on Earth are often attributed to reconnection\, the underlying mechanisms are not fully understood\, and clear diagnostic signatures are lacking. We present a theoretical\, data-driven approach for identifying reconnection radiation signatures and enabling remote diagnostics of reconnection in astrophysical setting s through radiation spectra. Using particle-in-cell (PIC) simulations of magnetic reconnection\, we generate radiation spectra and establish connections between spectral features and the underlying reconnection dynamics. We develop a method to estimate the ratio of the reconnection electric field to the plasmoid magnetic field from spectral data. Analytic calculations show that other parameters can be extracted in the ultra-relativistic reconnection regime\, such as the magnetic field or the current sheet width.

LOCATION:UL House of Science\, Room 523 END:VEVENT END:VCALENDAR