QuThees is a theory group operating at University of Catania. The main topic is Quantum Physics with Condensed Matter Systems. We have a long standing experience in superconductivity and graphene. Topics of our interest are quantum hardware, open quantum systems and control, quantum phase transitions, atomtronics.

Dipartimento di Fisica e astronomia
Via S. Sofia 64
37° 31' 27.8508" N, 15° 4' 14.4516" E

Experimental post-doctoral position in quantum sources
We are seeking to recruit a Postdoctoral Researcher to work on the development of new sources and applications of entangled photons. The research activities will be performed at the University of Glasgow, in the group led by Dr Matteo Clerici (Ultrafast Nonlinear Optics) and in collaboration with Profs Daniele Faccio and Robert Hadfield (Quantum Sensors).

Application deadline: 
Sunday, January 21, 2018

When the particles that make up a material are strongly-correlated, we theorists get a run for our money: qualitatively new behaviour emerges and the whole is a lot more than the sum of its parts. The theoretical description of matter in such challenging circumstances benefits from very close interaction with experimentalists. For this reason the University of Kent has set up, as part of the SEPnet collaboration, a small outpost of theorists at the ISIS Facility in the Rutherford Appleton Laboratory.

At the outpost we address a broad range of problems in the theory of strong correlations, ranging from condensed matter to atomic physics. Various techniques are deployed as the need arises: semiclassics, BCS theory, numerical diagonalisation, Bethe ansatz-based techniques, density functional theory, bosonisation, group theory, variational methods, etc. We often work in close collaboration with experimentalists.

Current research topics include:

* Spontaneous Fermi surface deformations in strongly-correlated quantum matter;
* unconventional pairing in superconductors;
* complementarity between cold atom and condensed matter experiments;
* proximity effect in magnetic nano-structures;
* design of new quantum information-based neutron scattering and cold atoms probes of strongly correlated quantum matter;
* and novel topological excitations in frustrated magnets.

Harwell Science and Innovation Campus STFC Rutherford Appleton Laboratory
Didcot 51° 34' 21.3672" N, 1° 19' 3.1584" W