Quantum Communication

CARTE

Research Type: 
Theory

Quantum Computing

Models of computation (classical and non classical)

Measurement-based quantum computing

Categorical quantum mechanics

Quantum Cellular Atomata

Quantum programming languages

Leader: 
Emmanuel Jeandel

Quantum Optics of Quantum Many-Body Systems

Research Type: 
Theory

Quantum optics, simulations, information, metrology, computation; many-body physics, atomic and condensed matter systems; quantum measurements, quantum control, quantum technologies; theory

Leader: 
Dr. Igor Mekhov

ENS-LKB Optomechanics and Quantum Measurements

Research Type: 
Experiment

We study the interaction mediated by radiation pressure between light and mechanical resonators. Our goals include overcoming quantum limits in high-precision interferometric measurements (such as gravitational-wave interferometers) or realizing quantum-coherent hybrid transducers based on nano-optomechanical devices.

Expertise:

Leader: 
Antoine Heidmann

Center for Quantum Entanglement Science and Technology (QUEST)

Research Type: 
Theory
Experiment

Funding Committee:

Richard Berkowits (Theory)

Emanuele Dalla Torre (Theory)

Lev Khaykovich (Ultracold atoms)

Avi Peer (Quantum Optics)

Michael Rosenbluh (Quantum Optics)

Michael Stern (Solid-State Qubits)

 

 

 

Leader: 
Richard Berkowits

Information Coding group

Research Type: 
Theory

Security of Quantum Cryptography, simulation of Quantum Computers, Quantum Bitcoin

Leader: 
Jan-Åke Larsson

Quantum Information

Research Type: 
Theory
Experiment

Quantum information, quantum cryptography (continuous-variable quantum key distribution, quantum cryptography beyond QKD), quantum networks, delegated quantum computing, quantum verification, quantum optics, silicon photonics for quantum technologies, foundations of quantum mechanics

 

Leader: 
Eleni Diamanti, Elham Kashefi, Damian Markham

MIQC2: Optical metrology for quantum-enhanced secure telecommunication

Research Type: 
Experiment

The aim of the project is to accelerate the development and commercial uptake of Quantum Key Distribution (QKD) technologies by developing traceable measurement techniques, apparatus, and protocols that will underpin the characterisation and validation of the performance and security of such systems. 

Leader: 
Ivo Pietro Degiovanni

Quantum Nanophotonics @ LENS

Research Type: 
Experiment

The focus of our activity is the combination of advanced photonic materials with organic molecules, with the idea of developing novel light-matter interfaces for quantum technologies. Single-molecule-based photon sources can be selectively coupled to waveguides, plasmonic excitations, graphene, or complex dielectric media.

Leader: 
Costanza Toninelli

GQCOP

Full Name: 
Genuine quantumness in cooperative phenomena
Coordinator: 
Prof. Gerardo Adesso
Running time: 
2015-05-01 - 2020-04-30

The proposed research programme addresses issues of fundamental and technological importance in quantum information science and its interplay with complexity. The main aim of this project is to provide a new paradigmatic foundation for the characterisation of quantumness in cooperative phenomena and to develop novel platforms for its practical utilisation in quantum technology applications. To reach its main goal, this programme will target five specific objectives: O1.

Quantum Correlations Group

Research Type: 
Theory

Our research is mainly devoted to the identification and quantification of genuinely quantum resources for efficient quantum information technology. 

Leader: 
Prof. Gerardo Adesso
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