16/05/2018 - 13:00 - 11:00
Add To Calendar
2018-05-16 11:00:00
2018-05-16 13:00:00
Seminar: Laser induced homogeneous and oriented ice nucleation probed by ultrafast X-ray pulses
Illumination of supercooled microliter water drops on a hydrophobic glass slide with pulsed ns-laser beams induces ice nucleation. The type of the ice nucleation, heterogeneous or homogeneous is determined by the illumination configuration. When analyzing the enhancement of the X-ray diffraction peaks from frozen drops and the first appearance of diffraction peak from the growing nuclei in a liquid drop by X-ray pulse after each laser pulse, a correlation to the polarization state is seen. This points toward the mechanism where the electric field defines preferred direction for water molecules to bind via the interaction between laser-induced dipoles. Furthermore, the latter observations also reveal particle ice attachment during growth. Finally, different illumination configurations yield freezing temperatures that can be higher by about 10 °C than from non-irradiated water drops.
Invitation
TeacherDr. Iftach Nevo, Tel Aviv University
Building 211, seminar room
Department of Chemistry
chemistry.office@biu.ac.il
Asia/Jerusalem
public
מיקום
Building 211, seminar room
Illumination of supercooled microliter water drops on a hydrophobic glass slide with pulsed ns-laser beams induces ice nucleation. The type of the ice nucleation, heterogeneous or homogeneous is determined by the illumination configuration. When analyzing the enhancement of the X-ray diffraction peaks from frozen drops and the first appearance of diffraction peak from the growing nuclei in a liquid drop by X-ray pulse after each laser pulse, a correlation to the polarization state is seen. This points toward the mechanism where the electric field defines preferred direction for water molecules to bind via the interaction between laser-induced dipoles. Furthermore, the latter observations also reveal particle ice attachment during growth. Finally, different illumination configurations yield freezing temperatures that can be higher by about 10 °C than from non-irradiated water drops.
Invitation
Teacher
Dr. Iftach Nevo, Tel Aviv University