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VERSION:2.0
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METHOD:PUBLISH
BEGIN:VEVENT
DTSTAMP:20260617T100842Z
UID:https://www.mpsd.mpg.de/events/11078/17181
DTSTART:20170921T120000Z
DTEND:20170921T133000Z
CLASS:PUBLIC
CREATED:20170918T103530Z
DESCRIPTION: Water is the most common liquid. Its properties are not\, howe
 ver\, common. Since the anomalies of water become pronounced at low temper
 atures\, especially below its melting temperature\, it has been proposed t
 hat the anomalous properties are attributed to the presence of two liquid 
 states corresponding to the two amorphous ices. Experimental studies of su
 percooled water are however very difficult. This is due to the fact that b
 ulk water is easily transferred to a crystalline phase in the “no man’
 s land”\, which is a temperature range bounded by the crystallization of
  supercooled water at ~235K and by that of highly viscous liquid water at 
 ~150K. Therefore\, various theoretical and computational studies have been
  conducted for understanding the properties in the no man’s land. We hav
 e performed extensive molecular dynamics simulations from normal liquid to
  deeply supercooled states to reveal the structural and dynamical instabil
 ities in the no man’s land. The spatiotemporal fluctuations\, dynamic tr
 ansition\, glass transition\, and vibrational contribution to Kauzmann tem
 perature of supercooled water will be discussed.\nSpeaker: Shinji Saito
LAST-MODIFIED:20170918T103530Z
LOCATION:CFEL (Bldg. 99)\, Room: Seminar Room I-II\, EG.076-078
ORGANIZER;CN=R. J. Dwayne Miller:mailto:
SUMMARY:MPSD ARD Seminar: Shinji Saito - Supercooled water: Fluctuation\, g
 lass transition\, and vibrational entropy
URL;VALUE=URI:https://www.mpsd.mpg.de/events/11078/17181
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