Quantum Computation

Raphael D Levine

Research Type: 
Theory
Leader: 
Raphael Levine

Superconducting nanoscale devices

Research Type: 
Experiment

Development of superconducting nanoscale electronics

Superconducting nanowire single photon detectors

Superconducting nanowire three-terminal devices

Superconducting nanowire memories

 

Leader: 
Sergio Pagano

Quantum flagship - online consultation on the QUTE consensus paper and registration for the Flagship workshop

Summary: 

A Community consulation has been launched with respect to the Quantum Flagship - the input will be presented to the High Level Steering Committee during an open workshop on the 10th of November in Berlin.

The High Level Steering Committee (http://qurope.eu/db/news/expert-group-quantum-technology-flagship) initiated a consultation process in order to collect the community consensus about the possible structure and governance of the QT Flagship.

During the first HLSC meeting, on the 20th September, T. Calarco presented the following documents:

CNR-SPIN, Topological quantum platforms and materials

Website: 
Research Type: 
Theory
Experiment

Topological quantum systems and materials

1. Physical properties of topological phases, characterization of topological phases and topological phase transitions

2. Geometric topology and topological phases in shape deformed nanostructures (semiconductors and superconductors)

3. Topological phases in superconductor-semiconductor nanostructures

4. Manipulating topological states in hybrids based on chiral and helical topological superconductors

5. Adiabatic quantum computation in the presence of a phonon decoherence bath

Leader: 
Mario Cuoco

CNR - IFN, Integrated Quantum Photonics

Research Type: 
Experiment

We use light to fabricate and characterize integrated quantum photonic components. In particular, we use femtosecond laser pulses to produce photonic circuits in transparent materials, as glasses and crystals, for quantum applications. Recent work focussed on the development of photonic circuits in glass for the manipulation of single photons, in crystal for the demonstration of quantum memories and in diamond for a photonic interface with color-center defects. We use ultrafast laser pulses for the characterization of single photon sources based on 2D materials.

Leader: 
Roberto Osellame

Laser and Photonics Group

Website: 

swansea.ac.uk

Research Type: 
Experiment
• Fibers and Solid-State lasers
Leader: 
Stefano Taccheo

IFN-CSMFO_LAB

Research Type: 
Experiment

- Rare earth ions and cromophores doped glasses and glass ceramics

- Confined structures: waveguides; opals; 1D-microcavities; WGMs spherical microresonators

- Optical spectroscopy

- Fabrication by sol-gel  route

- Fabrication by RF-Sputtering

Leader: 
Maurizio Ferrari

Superconducting Hybrids for quantum life @ UNINA & CNR-SPIN

Research Type: 
Experiment

Superconducting quantum hybrids and conversion of 'unconventional' into quantum devices

 

  • Josephson junctions, quantum interferomters and superconducting circuits employing various superconductors Al, NbN, Nb, YBCO
  • Hybrid Josephson junctions with ferromagnetic, semiconducting, graphene and topological insulator barriers 
  • Macroscopic quantum effects in hybrids and unconventional Josepshon junctions 
  • Low-power qubit readout and control circuits

 

Leader: 
Francesco Tafuri

Quantum information science at Warwick

Research Type: 
Theory

Quantum sensing and imaging

Quantum transport and quantum biology

Verification of quantum simulations

Fundamental study of quantum correlations

Leader: 
Animesh Datta

Quantum @ ISC-CNR

Website: 
Research Type: 
Theory

Quantum information and computing

Quantum Complex Systems

Quantum Networks

Quantum Nonlinear Optics

Entanglement in continuous variable systems

Quantum field theory

Open quantum systems and quantum dissipative systems

Leader: 
Claudio Conti
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