Job Overview
We are seeking a highly motivated researcher at the PhD level to work on a theoretical project in Quantum Information Theory. The successful candidate will explore the relationship between intrinsic and collective magnetic properties in ordered and disordered nanoparticle assemblies, addressing both their equilibrium and dynamic behavior.
The research will focus on representing these properties in the SANS cross section and correlation function, as well as studying static spin structures and computing dynamic magnetization responses using neutron scattering observables.
Key Responsibilities:
* Conduct analytical calculations and numerical simulations of classical spin systems
* Analyze data from polarized magnetic neutron scattering experiments
* Demonstrate expertise in condensed-matter physics and magnetism
About Us
We offer a unique opportunity to contribute to advancing our understanding of nanoscale behavior, particularly through the development of sophisticated tools for probing mesoscale variations. Our team has recently developed a theoretical framework combining analytical and numerical approaches, which we believe holds great promise for exploring complex systems.
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