Dieter Büchler, Max Planck Institute for Intelligent Systems

"Stability of classical shadows under gate-dependent noise" has been published on the Arxiv

Wir danken Prof. Volker Turau, der diesen Monat seinen wohlverdienten Ruhestand angetreten hat.

Multivariate Time series: Data processing, Imputation and Forecasting

Vom 18.10. bis 21.10.2023 fand die 2nd International Conference on Design for 3D Printing in Korea statt.

Aufgrund von Wartungsarbeiten steht TUNE am Freitag, den 03.11.2023, zwischen 17:00 und 18:00 Uhr vorübergehend nicht zur Verfügung.

We are looking for a new Research Associate (PHD or Postdoc) to work full-time at our institute. For more information press the link below.

Extreme land surface temperatures (LSTs) can be identified by satellite imagery; however, land and atmospheric conditions for the onset of maximum LST have not yet been globally explored. In this paper, a physically-based analytical model was developed to quantify the extent of maximum LSTs and delineate associated land and atmospheric conditions for the onset of such extremes. The findings reveal that temperature hotspots mostly aggregate in Middle East and North Africa, with maximum temperatures exceeding 85 °C during the study period from 2005 to 2020. The study sheds new light on the present and future hot regions that become ecologically prohibitive for primary productivity in unexplored regions of the Earth.  For more details, please check out our paper published in Earth’s Future: Aminzadeh, M., Or, D., Stevens, B., AghaKouchak, A., & Shokri, N. (2023). Upper bounds of maximum land surface temperatures in a warming climate and limits to plant growth. Earth's Future, 11, e2023EF003755. https://doi.org/10.1029/2023EF003755