Add to ORKGThe accurate computation of Hamiltonian ground, excited and thermal states on quantum computers stands to impact many problems in the physical and computer sciences, from quantum simulation to machine learning. Given the challenges posed in constructing large-scale quantum computers, these tasks should be carried out in a resource-efficient way. In this regard, existing techniques based on phase estimation or variational algorithms display potential disadvantages; phase estimation requires deep circuits with ancillae, that are hard to execute reliably without error correction, while variational algorithms, while flexible with respect to circuit depth, entail additional high-dimensional classical optimization. Here, we introduce the quantum ...
We solve a problem, which while not fitting into the usual paradigm, can be viewed as a quantum comp...
Quantum cooling, a deterministic process that drives any state to the lowest eigenstate, has been wi...
Quantum computers have been widely speculated to offer significant advantages in obtaining the groun...
The accurate computation of Hamiltonian ground, excited and thermal states on quantum computers stan...
The current generation of noisy intermediate-scale quantum computers introduces new opportunities to...
Current quantum computers are characterized as having the order of 5-100 qubits, with limited connec...
We develop a resource-efficient step-merged quantum imaginary time evolution approach (smQITE) to so...
Quantum imaginary time evolution (QITE) is one of the promising candidates for finding eigenvalues a...
Imaginary time evolution is a powerful tool for studying quantum systems. While it is possible to si...
Ground-state preparation is an important task in quantum computation. The probabilistic imaginary-ti...
Imaginary-time evolution plays an important role in many areas of quantum physics and has been widel...
Developing scalable quantum algorithms to study finite-temperature physics of quantum many-body syst...
A probabilistic imaginary-time evolution (PITE) method was proposed as a nonvariational method to ob...
Simulating quantum imaginary-time evolution (QITE) is a major promise of quantum computation. Howeve...
We present an algorithm that prepares thermal Gibbs states of one dimensional quantum systems on a q...
We solve a problem, which while not fitting into the usual paradigm, can be viewed as a quantum comp...
Quantum cooling, a deterministic process that drives any state to the lowest eigenstate, has been wi...
Quantum computers have been widely speculated to offer significant advantages in obtaining the groun...
The accurate computation of Hamiltonian ground, excited and thermal states on quantum computers stan...
The current generation of noisy intermediate-scale quantum computers introduces new opportunities to...
Current quantum computers are characterized as having the order of 5-100 qubits, with limited connec...
We develop a resource-efficient step-merged quantum imaginary time evolution approach (smQITE) to so...
Quantum imaginary time evolution (QITE) is one of the promising candidates for finding eigenvalues a...
Imaginary time evolution is a powerful tool for studying quantum systems. While it is possible to si...
Ground-state preparation is an important task in quantum computation. The probabilistic imaginary-ti...
Imaginary-time evolution plays an important role in many areas of quantum physics and has been widel...
Developing scalable quantum algorithms to study finite-temperature physics of quantum many-body syst...
A probabilistic imaginary-time evolution (PITE) method was proposed as a nonvariational method to ob...
Simulating quantum imaginary-time evolution (QITE) is a major promise of quantum computation. Howeve...
We present an algorithm that prepares thermal Gibbs states of one dimensional quantum systems on a q...
We solve a problem, which while not fitting into the usual paradigm, can be viewed as a quantum comp...
Quantum cooling, a deterministic process that drives any state to the lowest eigenstate, has been wi...
Quantum computers have been widely speculated to offer significant advantages in obtaining the groun...