Add to ORKGDeveloping scalable quantum algorithms to study finite-temperature physics of quantum many-body systems has attracted considerable interest due to recent advancements in quantum hardware. However, such algorithms in their present form require resources that exceed the capabilities of current quantum computers except for a limited range of system sizes and observables. Here, we report calculations of finite-temperature properties including energies, static and dynamical correlation functions, and excitation spectra of spin Hamiltonians with up to four sites on five-qubit IBM Quantum devices. These calculations are performed using the quantum imaginary time evolution (QITE) algorithm and made possible by several algorithmic improvements, incl...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Thermal properties of nanomaterials are crucial to not only improving our fundamental understanding ...
We use the newly developed finite temperature Lanczos algorithm to calculate the finite temperature ...
Developing scalable quantum algorithms to study finite-temperature physics of quantum many-body syst...
Current quantum computers are characterized as having the order of 5-100 qubits, with limited connec...
This thesis describes several topics related to finite temperature studies of strongly correlated sy...
The accurate computation of Hamiltonian ground, excited and thermal states on quantum computers stan...
Simulating quantum imaginary-time evolution (QITE) is a major promise of quantum computation. Howeve...
We simulate the critical behavior of the Ising model utilizing a thermal state prepared using quantu...
Computing finite temperature properties of a quantum many-body system is key to describing a broad r...
The current generation of noisy intermediate-scale quantum computers introduces new opportunities to...
We consider measurement-based quantum computation using the state of a spin-lattice system in equili...
We investigate quantum inspired algorithms to compute physical observables of quantum many-body syst...
Measurement-based quantum computation utilizes an initial entangled resource state and proceeds with...
Many problems of interest in physics, chemistry and computer science are equivalent to problems defi...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Thermal properties of nanomaterials are crucial to not only improving our fundamental understanding ...
We use the newly developed finite temperature Lanczos algorithm to calculate the finite temperature ...
Developing scalable quantum algorithms to study finite-temperature physics of quantum many-body syst...
Current quantum computers are characterized as having the order of 5-100 qubits, with limited connec...
This thesis describes several topics related to finite temperature studies of strongly correlated sy...
The accurate computation of Hamiltonian ground, excited and thermal states on quantum computers stan...
Simulating quantum imaginary-time evolution (QITE) is a major promise of quantum computation. Howeve...
We simulate the critical behavior of the Ising model utilizing a thermal state prepared using quantu...
Computing finite temperature properties of a quantum many-body system is key to describing a broad r...
The current generation of noisy intermediate-scale quantum computers introduces new opportunities to...
We consider measurement-based quantum computation using the state of a spin-lattice system in equili...
We investigate quantum inspired algorithms to compute physical observables of quantum many-body syst...
Measurement-based quantum computation utilizes an initial entangled resource state and proceeds with...
Many problems of interest in physics, chemistry and computer science are equivalent to problems defi...
Simulating properties of quantum materials is one of the most promising applications of quantum comp...
Thermal properties of nanomaterials are crucial to not only improving our fundamental understanding ...
We use the newly developed finite temperature Lanczos algorithm to calculate the finite temperature ...