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UID:calendarize-research-seminar-interactive-active-matter
DTSTAMP:20260420T091056Z

DTSTART:20260515T060000Z
DTEND:20260515T073000Z
    
SUMMARY:Research seminar "Interactive active matter"
DESCRIPTION:Aleksandra Ardaševa received her Ph.D. from the Mathematical Institute at the University of Oxford\, UK. Her doctoral work focused on studying evolutionary adaptation strategies of solid tumours. After that\, she joined the Niels Bohr Institute\, Denmark as a postdoc and MSCA fellow to study active biological matter. Currently\, she is a SNSF Ambizione fellow at EPFL\, Switzerland\, investigating eco-evolutionary consequences on active matter.\nAbstract: \nActive matter encompasses a wide range of systems that consist of individuals\, which extract energy from their surroundings and convert it into mechanical work. Such individuals\, including bacteria and eukaryotic cells\, exist in extremely diverse environments\, which\, in turn\, lead to a complex network of inter- and intra-population interactions. Mechanical forces\, exerted and experienced by cells\, can act as messengers\, regulating individual behaviour\, however\, how they lead to emergent collective behaviours and the emergence of liquid crystalline features in such active systems have not been elucidated yet. Here\, by utilising continuum liquid crystal theory\, we investigate how mechanical interactions with surroundings and other cells can affect collective cell migration.\nPlease register your participation HERE by May 11. 
X-ALT-DESC;FMTTYPE=text/html:<p>Aleksandra Ardaševa received her Ph.D. from the Mathematical Institute at the University of Oxford\, UK. Her doctoral work focused on studying evolutionary adaptation strategies of solid tumours. After that\, she joined the Niels Bohr Institute\, Denmark as a postdoc and MSCA fellow to study active biological matter. Currently\, she is a SNSF Ambizione fellow at EPFL\, Switzerland\, investigating eco-evolutionary consequences on active matter.</p>\n<p><strong>Abstract:&nbsp\;</strong></p>\n<p>Active matter encompasses a wide range of systems that consist of individuals\, which extract energy from their surroundings and convert it into mechanical work. Such individuals\, including bacteria and eukaryotic cells\, exist in extremely diverse environments\, which\, in turn\, lead to a complex network of inter- and intra-population interactions. Mechanical forces\, exerted and experienced by cells\, can act as messengers\, regulating individual behaviour\, however\, how they lead to emergent collective behaviours and the emergence of liquid crystalline features in such active systems have not been elucidated yet. Here\, by utilising continuum liquid crystal theory\, we investigate how mechanical interactions with surroundings and other cells can affect collective cell migration.</p>\n<p><strong>Please register your participation&nbsp\;</strong><a href="https://forms.office.com/e/wm8JLv5FFW" title="https://forms.office.com/e/wm8JLv5FFW"><strong>HERE</strong></a><strong>&nbsp\;by May 11.</strong><br />&nbsp\;</p>
LOCATION:UL House of Science\, Jelgavas iela 3\, Room 207
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