Add to ORKGThe implementation of a quantum computer requires the realization of a large number of N-qubit unitary operations which represent the possible oracles or which are part of the quantum algorithm. Until now there are no standard ways to uniformly generate whole classes of N-qubit gates. We have developed a method to generate arbitrary controlled phase shift operations with a single network of one-qubit and two-qubit operations. This kind of network can be adapted to various physical implementations of quantum computing and is suitable to realize the Deutsch-Jozsa algorithm as well as Grover's search algorithm
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
In this paper, we briefly review the basic concepts of quantum computation, entanglement, quantum ...
The quantum communication, from a conceptual point of view, is a technology that uses the informatio...
The implementation of a quantum computer requires the realization of a large number of {\it N}- qub...
Recent advances in quantum computational science promise substantial improvements in the speed with ...
We observe an enormous increase in the computational power of digital computers. This was due to the...
Quantum computation has attracted much attention, among other things, due to its potentialities to s...
It appears, in principle, that the laws of quantum mechanics allow a quantum computer to solve certa...
Quantum computers use the quantum interference of different computational paths to enhance correct o...
Simulating quantum mechanical evolutions in general is difficult on classical computers because the ...
In this work we study Grover's algorithm for quantum computers. This algorithm promises to search in...
A new model of quantum computation is considered, in which the connections between gates are program...
AbstractThis paper initiates the study of quantum computing within the constraints of using a polylo...
This thesis covers two main topics in quantum computing: universal quantum computation and quantum s...
In 1982, Richard Feynman first suggested that in order to simulate quantum mechanical system one nee...
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
In this paper, we briefly review the basic concepts of quantum computation, entanglement, quantum ...
The quantum communication, from a conceptual point of view, is a technology that uses the informatio...
The implementation of a quantum computer requires the realization of a large number of {\it N}- qub...
Recent advances in quantum computational science promise substantial improvements in the speed with ...
We observe an enormous increase in the computational power of digital computers. This was due to the...
Quantum computation has attracted much attention, among other things, due to its potentialities to s...
It appears, in principle, that the laws of quantum mechanics allow a quantum computer to solve certa...
Quantum computers use the quantum interference of different computational paths to enhance correct o...
Simulating quantum mechanical evolutions in general is difficult on classical computers because the ...
In this work we study Grover's algorithm for quantum computers. This algorithm promises to search in...
A new model of quantum computation is considered, in which the connections between gates are program...
AbstractThis paper initiates the study of quantum computing within the constraints of using a polylo...
This thesis covers two main topics in quantum computing: universal quantum computation and quantum s...
In 1982, Richard Feynman first suggested that in order to simulate quantum mechanical system one nee...
The purpose of this paper is to implement and simulate Grover's algorithm on one and several qubits ...
In this paper, we briefly review the basic concepts of quantum computation, entanglement, quantum ...
The quantum communication, from a conceptual point of view, is a technology that uses the informatio...