Add to ORKGIn anticipation of the increasing capabilities of quantum computers, we attempt to create quantum algorithms for two systems of interest. We find a set of 720 algorithms for the Korteweg-de Vries (KdV) using a perturbative scheme. This was done by altering an already known nonunitary algorithm, similar to how unitary algorithms were found for a previous equation, the Nonlinear Schrodinger (NLS) equation. Attempts were also made to create a unitary algorithm modeling Maxwell\u27s Equations, by modifying a prior nonunitary algorithm, to less success
A general class of discrete unitary models are described whose behavior in the continuum limit corre...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
Quantum corrections to the mean-field equation of state for nuclear matter are estimated in a lattic...
It is well known that Maxwell equations can be expressed in a unitary Schrodinger-Dirac representati...
The application of Quantum Computing (QC) to fluid dynamics simulation has developed into a dynamic ...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
The simulation of quantum physical systems is expected to be an important application for quantum co...
We investigate the simulations of the the Schrödinger equation using the onedimensional quantum latt...
Quantum lattice algorithms originated with the Feynman checkerboard model for the one-dime...
An algorithm is presented to simulate fluid dynamics on a three qubit type II quantum computer: a la...
this paper we will discuss algorithms which are concrete realizations of these general arguments. Th...
We describe a quantum algorithm to compute the density of states and thermal equilib-rium properties...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
State of the art and motivations There has been a huge interest in the last decade in implementing q...
As we begin to reach the limits of classical computing, quantum computing has emerged as a technolog...
A general class of discrete unitary models are described whose behavior in the continuum limit corre...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
Quantum corrections to the mean-field equation of state for nuclear matter are estimated in a lattic...
It is well known that Maxwell equations can be expressed in a unitary Schrodinger-Dirac representati...
The application of Quantum Computing (QC) to fluid dynamics simulation has developed into a dynamic ...
Classical algorithms that simulate the electronic and vibrational structure of atoms and molecules a...
The simulation of quantum physical systems is expected to be an important application for quantum co...
We investigate the simulations of the the Schrödinger equation using the onedimensional quantum latt...
Quantum lattice algorithms originated with the Feynman checkerboard model for the one-dime...
An algorithm is presented to simulate fluid dynamics on a three qubit type II quantum computer: a la...
this paper we will discuss algorithms which are concrete realizations of these general arguments. Th...
We describe a quantum algorithm to compute the density of states and thermal equilib-rium properties...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
State of the art and motivations There has been a huge interest in the last decade in implementing q...
As we begin to reach the limits of classical computing, quantum computing has emerged as a technolog...
A general class of discrete unitary models are described whose behavior in the continuum limit corre...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
Quantum corrections to the mean-field equation of state for nuclear matter are estimated in a lattic...