Add to ORKGCalculating the equilibrium properties of condensed matter systems is one of the promising applications of near-term quantum computing. Recently, hybrid quantum-classical time-series algorithms have been proposed to efficiently extract these properties from a measurement of the Loschmidt amplitude $\langle \psi| e^{-i \hat H t}|\psi \rangle$ from initial states $|\psi\rangle$ and a time evolution under the Hamiltonian $\hat H$ up to short times $t$. In this work, we study the operation of this algorithm on a present-day quantum computer. Specifically, we measure the Loschmidt amplitude for the Fermi-Hubbard model on a $16$-site ladder geometry (32 orbitals) on the Quantinuum H2-1 trapped-ion device. We assess the effect of noise on the Losc...
Practical quantum computing holds clear promise in addressing problems not generally tractable with ...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Solving electronic structure problems represents a promising field of application for quantum comput...
Quantum simulation advantage over classical memory limitations would allow compact quantum circuits ...
We propose a hybrid approach to simulate quantum many body dynamics by combining Trotter based quant...
Hybrid quantum-classical algorithms have been proposed to circumvent noise limitations in quantum co...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Current quantum computers suffer from non-stationary noise channels with high error rates, which und...
Quantum many-body scars are an intriguing dynamical regime in which quantum systems exhibit coherent...
In order to understand the capabilities and limitations of quantum computers, it is necessary to dev...
Quantum optimization algorithms offer a promising route to finding the ground states of target Hamil...
The hierarchical equations of motion (HEOM), derived from the exact Feynman-Vernon path integral, is...
We provide a noisy intermediate-scale quantum framework for simulating the dynamics of open quantum ...
We present a scalable method for learning local non-unital quantum channels using only local expecta...
The determination of the ground state of quantum many-body systems via digital quantum computers res...
Practical quantum computing holds clear promise in addressing problems not generally tractable with ...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Solving electronic structure problems represents a promising field of application for quantum comput...
Quantum simulation advantage over classical memory limitations would allow compact quantum circuits ...
We propose a hybrid approach to simulate quantum many body dynamics by combining Trotter based quant...
Hybrid quantum-classical algorithms have been proposed to circumvent noise limitations in quantum co...
The hope of the quantum computing field is that quantum architectures are able to scale up and reali...
Current quantum computers suffer from non-stationary noise channels with high error rates, which und...
Quantum many-body scars are an intriguing dynamical regime in which quantum systems exhibit coherent...
In order to understand the capabilities and limitations of quantum computers, it is necessary to dev...
Quantum optimization algorithms offer a promising route to finding the ground states of target Hamil...
The hierarchical equations of motion (HEOM), derived from the exact Feynman-Vernon path integral, is...
We provide a noisy intermediate-scale quantum framework for simulating the dynamics of open quantum ...
We present a scalable method for learning local non-unital quantum channels using only local expecta...
The determination of the ground state of quantum many-body systems via digital quantum computers res...
Practical quantum computing holds clear promise in addressing problems not generally tractable with ...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Solving electronic structure problems represents a promising field of application for quantum comput...