Welcome Sam Patissier to the team !
Now pursuing my research at CPT with a PhD financed by QuantEduFrance, I will study the coexistence of the quantum Hall state with superconductivity, which are a priori two incompatible states of matter.
Welcome Mathieu Paulet to the team !
In EQUBITFLY project, my goal will be to develop criteria to quantify the creation of entanglement between two electrons interacting within a quantum conductor.
A new publication from D.C. Glattli et al.
The results obtained in this study can be generalized to more complex hole-conjugate fractional quantum Hall phases.
A new publication from H. Souquet Basiège et al.
Our research could have significant implications for probing the fundamental properties of light in the microwave to terahertz domains at extremely short timescales.
Welcome Adrien Riva to the team !
In EQUBITFLY project, his contribution focuses on two aspects: (1) Understanding the physics of moiré systems, and (2) Manufacturing samples based on rhombohedral graphene to explore the anomalous quantum Hall effect.
A new publication from F. Ronetti et al.
We compute the cross-correlation between the anyon current transmitted from the source and the current after the Ω junction, providing a direct method to detect anyon braiding statistics.
A new publication from F. Ronetti et al.
Our results provide a minimal and accessible platform for probing anyonic statistics using a single chiral edge.
A new publication from F. Ronetti et al.
Discover the latest scientific publication of EQUBITFLY, by F. Ronetti et al., in Physical Review B ! Periodic source of energy-entangled electrons in helical states coupled to a BCS superconductor
First General Assembly led at CPT Aix-Marseille Univ. on Feb 5-6, 2025.
The 1st General Assembly of EQUBITFLY was led at the site of our Partner, CPT Aix-Marseille University, on Luminy Campus, on February 5-6, 2025.
Welcome Kevin Bredillet to the team !
Kevin Bredillet will be involved in the design and characterization of ultrafast photodetectors for the generation and control of electronic Qubits at the picosecond time scale in close collaboration with Institut Néel.