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BEGIN:VEVENT
UID:news731@physik.unibas.ch
DTSTAMP;TZID=Europe/Zurich:20240307T144849
DTSTART;TZID=Europe/Zurich:20231103T151500
SUMMARY:Oxide interfaces: a versatile platform for material design and ultr
 afast light control
DESCRIPTION:Exerting control over quantum materials is one of the main goal
 s in condensed matter physics. Oxide interfaces have emerged as a versatil
 e platform for material design\, where new fundamental properties can be c
 ontrolled by assembling condensed matter at the atomic scale.\\r\\n\\r\\nL
 ight plays a pivotal role in this scientific exploration. Probing material
 s with light reveals the collective excitations and the energy landscapes 
 that underpin correlated dynamics. Recently we have come to the realisatio
 n that light not only reveals the organisation of condensed matter\, it ca
 n also unlock new properties and promote phase transitions.\\r\\nThe overa
 rching goal of the field is to control macroscopic material properties\, p
 aving the way to new scientific insights and future emerging technologies.
  We will review recent progress in the field of material design at oxide i
 nterfaces\, focusing on the control of quantum phases in and out of equili
 brium.\\r\\nContact address:\\r\\nA.D. Caviglia Department of Quantum Matt
 er Physics University of Geneva 24 Quai Ernest Ansermet CH-1211 Geneva \, 
 Switzerland\\r\\nandrea.caviglia@unige.ch
X-ALT-DESC:<p>Exerting control over quantum materials is one of the main go
 als in condensed matter physics. Oxide interfaces have emerged as a versat
 ile platform for material design\, where new fundamental properties can be
  controlled by assembling condensed matter at the atomic scale.</p>\n\n<p>
 Light plays a pivotal role in this scientific exploration. Probing materia
 ls with light reveals the collective excitations and the energy landscapes
  that underpin correlated dynamics. Recently we have come to the realisati
 on that light not only reveals the organisation of condensed matter\, it c
 an also unlock new properties and promote phase transitions.</p>\n<p>The o
 verarching goal of the field is to control macroscopic material properties
 \, paving the way to new scientific insights and future emerging technolog
 ies. We will review recent progress in the field of material design at oxi
 de interfaces\, focusing on the control of quantum phases in and out of eq
 uilibrium.</p>\n<p>Contact address:</p>\n<p>A.D. Caviglia<br /> Department
  of Quantum Matter Physics<br /> University of Geneva<br /> 24 Quai Ernest
  Ansermet<br /> CH-1211 Geneva \, Switzerland</p>\n<p>andrea.caviglia@unig
 e.ch</p>
DTEND;TZID=Europe/Zurich:20231103T163000
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