For the solution of time-dependent nonlinear differential equations, we present variational quantum algorithms (VQAs) that encode both space and time in qubit registers. The spacetime encoding enables us to obtain the entire time evolution from a single ground-state computation. We describe a general procedure to construct efficient quantum circuits for the cost function evaluation required by VQAs. To mitigate the barren plateau problem during the optimization, we propose an adaptive multigrid strategy. The approach is illustrated for the nonlinear Burgers equation. We classically optimize quantum circuits to represent the desired ground-state solutions, run them on IBM Q System One and Quantinuum System Model H1, and demonstrate that curr...
Variational algorithms are promising candidates to be implemented on near-term quantum computers. In...
We demonstrate a post-quench dynamics simulation of a Heisenberg model on present-day IBM quantum ha...
This work studies pulse-based variational quantum algorithms (VQAs), which are designed to determine...
For the solution of time-dependent nonlinear differential equations, we present variational quantum ...
The simulation of quantum systems constitutes today one of the most fruitful applications of quantum...
We introduce a novel hybrid algorithm to simulate the real-time evolution of quantum systems using p...
We introduce a novel hybrid algorithm to simulate the real-time evolution of quantum systems using p...
We propose a variational quantum algorithm to study the real time dynamics of quantum systems as a g...
Quantum algorithms for quantum dynamics simulations are traditionally based on implementing a Trotte...
Simulating time evolution of generic quantum many-body systems using classical numerical approaches ...
We show that nonlinear problems including nonlinear partial di↵erential equations can be e- ciently ...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
We show that nonlinear problems including nonlinear partial di↵erential equations can be e- ciently ...
Variational algorithms are promising candidates to be implemented on near-term quantum computers. In...
We demonstrate a post-quench dynamics simulation of a Heisenberg model on present-day IBM quantum ha...
This work studies pulse-based variational quantum algorithms (VQAs), which are designed to determine...
For the solution of time-dependent nonlinear differential equations, we present variational quantum ...
The simulation of quantum systems constitutes today one of the most fruitful applications of quantum...
We introduce a novel hybrid algorithm to simulate the real-time evolution of quantum systems using p...
We introduce a novel hybrid algorithm to simulate the real-time evolution of quantum systems using p...
We propose a variational quantum algorithm to study the real time dynamics of quantum systems as a g...
Quantum algorithms for quantum dynamics simulations are traditionally based on implementing a Trotte...
Simulating time evolution of generic quantum many-body systems using classical numerical approaches ...
We show that nonlinear problems including nonlinear partial di↵erential equations can be e- ciently ...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
The primary subject of this dissertation is the analysis and improvement of variational methods that...
We show that nonlinear problems including nonlinear partial di↵erential equations can be e- ciently ...
Variational algorithms are promising candidates to be implemented on near-term quantum computers. In...
We demonstrate a post-quench dynamics simulation of a Heisenberg model on present-day IBM quantum ha...
This work studies pulse-based variational quantum algorithms (VQAs), which are designed to determine...