3 Postdoc positions in stress measurements at the nanoscale: Friction, Glass Transition and Rheology
Are you a self- motivated outstanding experimental physicists, physical chemist or engineer with an interest in statistical mechanics and non-linear physics? …
- Science Park, Amsterdam, Noord-Holland
- Tijdelijk contract / Tijdelijke opdracht
- Uren per week:
- 38 - 38 uur
- € 2709 - € 4274 per maand
Are you a self- motivated outstanding experimental physicists, physical chemist or engineer with an interest in statistical mechanics and non-linear physics? Do you like to work in a lively group comprising over 30 researchers? We are looking for a PhD candidate who is interested in statistical mechanics and non-linear physics with a proven affinity or experience in using rheology, light and confocal microscopy, or soft condensed systems in combination with excellent communicative and organizational skills.
What are you going to do?
You will be part of a team that will exploit novel molecules whose fluorescence properties depend strongly on the environment, notably on their spatial confinement, to study local stresses in complex materials down to the nanometer length scale and with unprecedented temporal resolution. Based on successful preliminary tests, we will develop this innovative methodology to tackle the fundamental scientific challenge of quantifying the long-range and very non-linear elasto-plastic stresses that govern the dynamics of friction, the glass transition and rheology.
Friction is an immense global source of energy loss; the glass transition is perhaps the most important unsolved problem in condensed matter physics; and rheology in complex fluids is at the same time ubiquitous and poorly understood. The common denominator of these three open challenges is that in each, the material’s macroscopic mechanical behavior results from a complex interplay between microscopic stresses that remain ill characterized. This presents a scientific bottleneck as well as a major obstacle in the engineering of many important materials and tools such as ball bearings, plastics and foodstuffs.
The fluorescent environmentally sensitive probes will enable breakthrough results in three areas at once: (1) Locally measuring stresses in a frictional contact; (2) Probing the glass transition by local stress and viscosity measurements; (3) Visualizing and quantifying stress transmission in flowing complex fluids to explain non-Newtonian and non-local viscosity effects microscopically.
By probing local stresses in unprecedented detail, your project will break open some of the toughest research areas in non-linear physics and (statistical) mechanics with far-reaching engineering consequences.
- PhD degree in Physics, Physical Chemistry or Engineering;
- strong background in statistical mechanics and non-linear physics;
- affinity or experience in using rheology, light and confocal microscopy, or soft condensed systems;
- excellent communicative and organizational skills.
A temporary contract for 38 hours per week, for the duration of 1 year (with possible extension).
The salary, depending on relevant experience before the beginning of the employment contract, will be €2.709 to €4.274 (scale 10) gross per month, based on fulltime (38 hours a week), exclusive 8 % holiday allowance and 8.3 end-of-year bonus. A favorable tax agreement, the ‘30% ruling’, may apply to non-Dutch applicants. The Collective Labour Agreement of Dutch Universities is applicable.
Are you curious about our extensive package of secondary employment benefits like our excellent opportunities for study and development? Take a look here.
Do you have questions about this vacancy? Or do you want to know more about our organisation? Please contact:
- Daniel Bonn, Professor