Quantum Computation

Q.I.T. group at University of Palermo

Research Type: 
Theory
  • Quantum entanglement
  • Decoherence
  • Quantum noise
  • Geometric phases
  • Josephson junctions
  • Interacting spin systems
  • Quantum channels
  • Condensed matter systems
  • Quantum optical systems
Leader: 
Massimo G. Palma

Condesed matter theory group

Research Type: 
Theory
  • Nanostructures (quantum dots, Hall systems)
Leader: 
Lucjan Jacak

NEST - Scuola Normale Superiore

Website: 
Research Type: 
Experiment
  • Quantum information
  • Nanoscale fabrication
  • Electronic transport
  • Semiconductor nanostructures
  • Normal-superconductor nanostructures
Leader: 
Fabio Beltram

Theoretical Quantum Physics

Research Type: 
Theory
  • Quantum Information Theory
  • Quantum Error Correction
  • Decoherence
  • Quantum Key Distribution
  • Quantum Optics
Leader: 
Gernot Alber

Quantum Optics (Leiden)

Research Type: 
Experiment
  • Photonic entanglement
  • SPDC
  • Light scattering
  • Plasmonics
  • Singular optics
  • Single Photon Detectors
  • Opto-mechanics
Leader: 
D. Bouwmeester, M.P. van Exter and M.J.A. de Dood

Quantum Degenerate gases

Website: 
Research Type: 
Experiment

 


  • Quantum Degeneracy

  • Optical Lattices

  • Bose-Fermi mixtures

 

Leader: 
Massimo Inguscio

Quantum Information Team at Telecom ParisTech

Website: 
Research Type: 
Theory
Experiment
  • Practical Quantum Key Distribution: QKD networks (architecture, protocols, topological optimization), practical key distillation, integration into security architectures, Side-channels and security certification of QKD devices
  • Theoretical Quantum Cryptography:  QKD security proofs, Post-Quantum Security Models (noisy storage...) , Non-QKD Quantum Crypto Prtotocols (secret sharing, etc...), Device-Independent Quantum Crypto
Leader: 
Romain Alléaume

Quantum Device Lab

Research Type: 
Experiment
  • Superconducting Quantum Information Processing
  • Quantum Optics
  • Cavity/Circuit Quantum Electrodynamics
  • Mesoscopic Physics
Leader: 
Andreas Wallraff

Arbeitsgruppe Hanggi

Research Type: 
Theory

Theory of quantum information, decoherence, decoherence control,driven quantum systems, adiabatic quantum computation, superconducting qubits, circuit quantum electrodynamics, quantum transport

Leader: 
Peter Hänggi
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