Pour vous authentifier, privilégiez eduGAIN / To authenticate, prefer eduGAINeu

Quantum Computing for Many-Body problems (QCMB): atomic nuclei, neutrinos, and other strongly correlated Fermi systems

Europe/Paris
Amphitheater Joliot Curie, IJCLab Bat 100 (IJCLab)

Amphitheater Joliot Curie, IJCLab Bat 100

IJCLab

Description

Quantum computing is an emergent field that has natural applications in many-body systems. The aim of the workshop is to give an overview of most recent developments and facilitate the exchange between experts of the fields with applications ranging from atomic nuclei, neutrinos, atomic and condensed matter many-body systems. The objective will be to discuss most recent works and progresses in the treatment of many-body systems with quantum computers and related quantum information aspects. The following topics will be covered:

  • Quantum technologies: analogue and digital devices
  • Many-particle and interaction encoding 
  • Quantum algorithms for many-body problems
  • Quantum information aspects
  • Eigenvalue problem and many-body spectroscopy
  • Many-Body dynamics on quantum computers 

While a zoom connection will probably be available for the meeting, we strongly encourage the speakers to participate in-person. 

 

The Organizers: Yann Beaujeault-Taudière (IJCLab Orsay), Denis Lacroix (IJCLab Orsay), Francesco Pederiva (Univ. Trento and INFN-TIPFA), Alessandro Roggero (Univ. Trento and INFN-TIPFA), Sofia Vallecorsa (CERN, Geneva)

 

 

Participants
  • Alberto Scalesi
  • Alessandro Roggero
  • Amol Patwardhan
  • Ante Ravlic
  • Antoine Browaeys
  • Antonio Márquez Romero
  • Arnau Rios
  • arthur braida
  • Ashutosh Singh
  • Baptiste ANSELME MARTIN
  • Benjamin Bally
  • Bernard Amadon
  • Bogdan VULPESCU
  • Bruno Senjean
  • Caroline Robin
  • Chandan Sarma
  • Christophe Domain
  • Christopher Wyenberg
  • Corentin Bertrand
  • Cyrille De Saint Jean
  • Dean Lee
  • Denis Lacroix
  • Edgar Andres Ruiz Guzman
  • Elena Litvinova
  • Erez Zohar
  • Ermal Rrapaj
  • Francesco Marino
  • Francesco Pederiva
  • Francesco Turro
  • Frederic Magniette
  • Gianluca Stellin
  • Giovanni De Gregorio
  • Guillaume Hupin
  • Hugo JIMENEZ PEREZ
  • Isaac Hobday
  • Iyadh Chaker
  • Jacques Meyer
  • Jean Cazalis
  • Jean-Baptiste Touchais
  • Jean-Paul Ebran
  • Jean-Philip PIQUEMAL
  • Jing Zhang
  • Johanna Klein
  • Johannes Knaute
  • Jose-Enrique Garcia-Ramos
  • Joseph Carlson
  • Juan José Galvez-Viruet
  • Karl Jansen
  • khlood Alharthi
  • Leonardo Ratini
  • Lorenzo Contessi
  • Luca Vespucci
  • Luis Gonzalez Miret Zaragoza
  • Luis Gonzalez Miret Zaragoza
  • Luis Robledo
  • Léo Chaussy
  • Manqoba Hlatshwayo
  • Marc Illa
  • Mariane MANGIN-BRINET
  • Mi-Song Dupuy
  • Michael Cervia
  • Michele Grossi
  • Mikael Frosini
  • Milan K B
  • Nathalie Pillet
  • Nifeeya Singh
  • Noël Dubray
  • Oriel Kiss
  • PASCAL SIMON
  • Paul Stevenson
  • Pauline Besserve
  • Pepijn Demol
  • Petar Marevic
  • Piero Luchi
  • Pierre Tamagno
  • Piet Van Isacker
  • Pooja Siwach
  • Praveen C Srivastava
  • Sofia Vallecorsa
  • Stefano Di Sabatino
  • Thierry LEININGER
  • Thomas Ayral
  • Thomas Duguet
  • Thomas Papenbrock
  • Umberto Morellini
  • Valentina Amitrano
  • Vikas Katoch
  • Vittorio Somà
  • Véronique Bernard
  • Yann Beaujeault-Taudiere
  • yohann scribano
  • Zhen Li
    • Welcome
    • Morning session 1
      • 1
        Quantum Computing for Nuclear Physics Research at the University of Surrey
        Orateur: Paul Stevenson (University of Surrey)
      • 2
        Quantum simulation of Hamiltonian using variational approach involving linear combination of unitary operators
        Orateur: Ashutosh Singh (Indian Institute of Technology Roorkee)
    • Morning coffee break
    • Morning session 2
      • 3
        A density-matrix renormalization group algorithm for simulating quantum circuits with a finite fidelity
        Orateur: Thomas Ayral (Atos Quantum)
      • 4
        Restoration of symmetries in many-body systems on quantum computers
        Orateur: Edgar Andres Ruiz Guzman (IJCLab/Université Paris-Saclay)
      • 5
        Quantum Computing applications of the Hubbard-Stratonovich transformation
        Orateur: Luca Vespucci (University of Trento)
    • Lunch
    • Afternoon session 1
      • 6
        Quantum information as a tool to quantify correlations in nuclear structure
        Orateur: Luis Robledo (Universidad Autonoma de Madrid)
      • 7
        Gray code implementation of the many-body Hamiltonian: Recent progress and future perspectives in quantum computing
        Orateur: Ermal Rrapaj (RIKEN - University of California, Berkeley)
      • 8
        Efficient Hamiltonian encoding and gate simulations on quantum computers
        Orateur: Manqoba Hlatshwayo (Western Michigan University)
    • Afternoon coffee break
    • Afternoon session 2
      • 9
        Quantum Computing and Information for the collective neutrino oscillation problem
        Orateur: Joseph Carlson (LANL)
      • 10
        Entanglement in nuclear models and matter
        Orateur: Thomas Papenbrock (University of Tennessee / Oak Ridge National Laboratory)
      • 11
        Qubitization and Compilation of Lattice Gauge Theories
        Orateur: Michael Cervia (George Washington University & University of Maryland)
    • Dinner & cocktail
    • Discussion on “Quantum Computing in Europe (for low energy nuclear physics)”
    • Morning session 1
      • 12
        Quantum Simulation of the Agassi Model in Trapped Ions: determining the shape of the system
        Orateur: Jose-Enrique Garcia-Ramos (University of Huelva)
      • 13
        Quantum phase detection in Axial Next Nearest Neighbour Ising (ANNNI) model with quantum convolutional neural networks
        Orateur: Michele Grossi (CERN)
    • Morning coffee break
    • Morning session 2
      • 14
        Many-body physics with arrays of atoms
        Orateur: Antoine Browaeys (Institut Optique, CNRS)
      • 15
        Trapped-ion quantum simulation of collective neutrino oscillations
        Orateur: Valentina Amitrano (UniTN, Italy)
      • 16
        Imaginary Time Propagation on a Quantum Chip
        Orateur: Francesco Turro (IQuS/University of Washington)
    • Lunch
    • Afternoon session 1
      • 17
        Quantum Computing for condensed matter and high energy physics
        Orateur: Karl Jansen (DESY)
      • 18
        Simulating strongly interacting Hubbard chains on a quantum computer
        Orateur: Baptiste Anselme Martin (Laboratoire de Physique des Solides d'Orsay)
      • 19
        Efficient encoding for simulating nuclear many-body problems on quantum computer
        Orateur: Pooja Siwach (University of Wisconsin-Madison)
    • Afternoon coffee break
    • Afternoon session 2
      • 20
        Quantum Simulation of Lattice Gauge Theories - Requirements, Challenges and Methods
        Orateur: Erez Zohar (Racah Institute of Physics, Hebrew University of Jerusalem)
      • 21
        Rodeo algorithm with controlled reversal gates
        Orateur: Dean Lee (Michigan State University)
      • 22
        Multi-body entanglement in dense neutrino systems
        Orateur: Marc Illa (IQuS, University of Washington)
    • Dinner & cocktail
    • Morning session 1
      • 23
        Improving the accuracy of truncated quantum computations of nuclei
        Orateur: Caroline Robin (Uni Bielefeld and GSI Darmstadt)
      • 24
        Nuclear Simulation on Quantum Computers with Optimal Control
        Orateur: Piero Luchi (University of Trento)
    • Morning coffee break
    • Morning session 2
      • 25
        Quantum chemistry: from simulators to QPUs
        Orateur: Jean-Philip Piquemal (Sorbonne University, Paris)
      • 26
        Variational low-depth preparation of correlated systems' ground states with the natural-orbitalization algorithm
        Orateur: Pauline Besserve (CPHT (Ecole Polytechnique) - Atos Quantum Lab)
      • 27
        Variational quantum eigensolver for small nuclear systems
        Orateur: Oriel Kiss (CERN, University of Geneva)
    • Lunch
    • Afternoon session 1
      • 28
        Linear Response on a Quantum Computer
        Orateur: Nifeeya Singh (Indian Institute of Technology Roorkee)
      • 29
        Nuclear shell-model Hamiltonians in a quantum computer
        Orateur: Antonio Márquez Romero (University of Barcelona)
      • 30
        A quantum optimization algorithm for deriving effective shell model hamiltonians
        Orateur: Giovanni De Gregorio (Università della Campania "Luigi Vanvitelli" & INFN-Napoli)
    • Final discussion/remarks