Quantum computing opens up new possibilities for the simulation of many-body nuclear systems. As the number of particles in a many-body system increases, the size of the space if the associated Hamiltonian increases exponentially. This presents a challenge when performing calculations on large systems when using classical computing methods. By using a quantum computer, one may be able to overcome this difficulty thanks to the exponential way the Hilbert space of a quantum computer grows with the number of quantum bits (qubits). Our aim is to develop quantum computing algorithms which can reproduce and predict nuclear structure such as level schemes and level densities. As a sample Hamiltonian, we use the Lipkin-Meshkov-Glick model. We use a...
Variational algorithms for strongly correlated chemical and materials systems are one of the most pr...
The simulation of quantum physical systems is expected to be an important application for quantum co...
We describe a quantum algorithm to compute the density of states and thermal equilib-rium properties...
Quantum computing opens up new possibilities for the simulation of many-body nuclear systems. As the...
Quantum computing opens up new possibilities for the simulation of many-body nuclear systems. As the...
Abstract The nuclear shell model is one of the prime many-body methods to study the structure of ato...
Model calculations of nuclear properties are peformed using quantum computing algorithms on simulate...
International audienceThe possibility of using the generator coordinate method (GCM) using hybrid qu...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The utility of effective model spaces in quantum simulations of non-relativistic quantum many-body s...
International audienceWe simulate the excited states of the Lipkin model using the recently proposed...
Quantum computers exist today that are capable of performing calculations that challenge the largest...
We use the Lipkin-Meshkov-Glick (LMG) model and the valence-space nuclear shell model to examine the...
International audienceHybrid quantum-classical algorithms have been proposed to circumvent noise lim...
This dissertation concerns the development of quantum computing algorithms for solving electronic st...
Variational algorithms for strongly correlated chemical and materials systems are one of the most pr...
The simulation of quantum physical systems is expected to be an important application for quantum co...
We describe a quantum algorithm to compute the density of states and thermal equilib-rium properties...
Quantum computing opens up new possibilities for the simulation of many-body nuclear systems. As the...
Quantum computing opens up new possibilities for the simulation of many-body nuclear systems. As the...
Abstract The nuclear shell model is one of the prime many-body methods to study the structure of ato...
Model calculations of nuclear properties are peformed using quantum computing algorithms on simulate...
International audienceThe possibility of using the generator coordinate method (GCM) using hybrid qu...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The utility of effective model spaces in quantum simulations of non-relativistic quantum many-body s...
International audienceWe simulate the excited states of the Lipkin model using the recently proposed...
Quantum computers exist today that are capable of performing calculations that challenge the largest...
We use the Lipkin-Meshkov-Glick (LMG) model and the valence-space nuclear shell model to examine the...
International audienceHybrid quantum-classical algorithms have been proposed to circumvent noise lim...
This dissertation concerns the development of quantum computing algorithms for solving electronic st...
Variational algorithms for strongly correlated chemical and materials systems are one of the most pr...
The simulation of quantum physical systems is expected to be an important application for quantum co...
We describe a quantum algorithm to compute the density of states and thermal equilib-rium properties...