Projects
OQuLus
The OQuLus project brings together French experts in photonics and quantum technologies to build two prototypes of NISQ optical quantum computers.
See more
e-DIAMANT
e-DIAMANT federates the knowledge and expertise of 11 partners to create diamond samples optimized for quantum application.
See more
QMemo
The QMemo project develops quantum memories that will eventually bring together the figures of merit required for their integration into future French and European experimental quantum networks.
See more
QARES
The aim of the QARES project is to design quantum algorithms to solve the important problem of electronic structure.
See more
EPiQ
The EPiQ project aims to develop the algorithmic techniques available for both NISQ machines and fault-tolerant machines, and to make it easier to put them into practice.
See more
QAFCA
Among the many anticipated applications for atomic sensors, the QAFCA project focuses on the field of geophysics.
See more
CARAMELS
The aim of the CARAMELS project is to create a national consortium to push the limits of existing Rydberg sensors beyond the state of the art, and to develop new applications.
See more
Presquile
As early as 2016, PRESQUILE scientists demonstrated that industrial CMOS technology could be used to produce a qubit. The challenge now is to assemble and control a large number of these qubits.
See more
PQ-TLS
The aim of the PQ-TLS project is to develop post-quantum cryptography schemes over a 5-year period, to be implemented in a web browser.
See more
Dyn1D
The Dyn1D project aims to study the dynamics of one-dimensional N-body quantum systems using analog quantum simulators.
See more
QUTISYM
The QUTISYM project explores problems associated with quantum transport, using a “quantum simulation” approach.
See more
QuMOMI
The QUMOMI project aims to develop in France a quantum interface between microwaves and infrared optics.
See more
QubitAF
QubitAF aims at developping the potential of cold atom platforms that have already shown interest for quantum simulation: arrays of interacting atoms in optical tweezers and in optical lattices.
See more
QUANTIN
The aim of the QUANTIN project is to explore new superconducting/semiconducting and superconducting/topological material platforms for quantum devices with improved structural properties and performance.
See more
QCommTestbed
The QCommTestbed project aims to provide France with a nationally coordinated testbed, used for demonstrations of quantum communication applications.
See more
MolQif
The MolQIF project aims to explore the potential of paramagnetic complexes (PCs) to act as robust, solid-state, spin-based quantum bits (qubits) for quantum information processing (QIP).
See more
Miracle_Q
MIRACLE_Q aims to manufacture, validate and test the elementary module of a new quantum computer platform.
See more
eQubitFly
The eQubitFly project aims to develop a novel quantum architecture by harnessing flying electron qubits.
See more
DIQKD
The aim of the DIQKD project is to create the first prototype of “black box” quantum key distribution with optical elements.
See more
NISQ2LSQ
The NISQ2LSQ project aims to significantly accelerate R&D in the theory and design of hardware-efficient error-correcting codes.
See more
RobustSuperQ
The RobustSuperQ project aims at accelerating French R&D on superconducting and hybrid qubits protected by construction against decoherence.
See more
aQCess
aQCess aims at establishing a public platform for digital quantum computing based on ultra-cold Rydberg atoms, with over 400 high-quality programmable qubits for academic and industrial research and training.
See more
No news