Ordinary yet unique, liquid water is probably the most important and least understood substance on earth. A fluctuating network of hydrogen bonds connecting the constantly mobile molecules determines both structure and anomalous properties of water. The hydrogen bonds are strong enough to link the water molecules but they are also weak enough to constantly break and reform on an ultrafast time scale of 1 picosecond (10-12 seconds). Understanding the fast making and breaking of these bonds and the involved molecular rearrangements is a prerequisite for understanding structure and properties of water. We propose to elucidate the making and breaking of hydrogen bonds in water with an unprecedented combination of experimental techniques. The breaking of hydrogen bonds will be initiated by a controlled laser excitation. The subsequent evolution of the hydrogen bond network will be monitored on a molecular level and as a function of time by x-ray spectroscopy in a stroboscopic fashion (pump-probe scheme). This will give unique access to the short-lived early stages in the processes of hydrogen bond breaking and making and it promises to significantly advance our understanding of water.

DFG-Verfahren Schwerpunktprogramme

Teilprojekt zu SPP 1134:  Aufklärung transienter Strukturen in kondensierter Materie mit Ultrakurzzeit-Röntgenmethoden

Beteiligte Person Professor Dr. Wolfgang Eberhardt