Add to ORKGWe numerically simulate the process of nuclear spin measurement in Kane's quantum computer. For this purpose, we model the quantum dynamics of two coupled nuclear spins located on {sup 31}P donors implanted in Si. We estimate the minimum time of measurement necessary for the reliable transfer of quantum information from the nuclear spin subsystem to the electronic one and the probability of error for typical values of external noise
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
Coupled electron-nuclear spins are promising physical systems for quantum in-formation processing: B...
A solid-state quantum computer composed entirely of semiconductor silicon is proposed. Qubits are nu...
The transfer of information between different physical forms is a central theme in communication and...
The transfer of information between different physical forms - for example processing entities and m...
We examine a 31P donor electron spin in a Si crystal to be used for the purpose of quantum computati...
A procedure for quantum teleportation in a spin quantum computer was discussed. The quantum logic ga...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
In this chapter we explore the connection between mesoscopic physics and quantum computing. After gi...
abstract: In this paper, optimal control routines are applied to an existing problem of electron sta...
The understanding of weak measurements and interaction-free measurements has greatly expanded the co...
A dynamics of a nuclear-spin quantum computer with a large number (L = 1000) of qubits is considered...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
Quantum computers are machines that exploit the quantum mechanical properties of physical systems to...
We model the evolving time-dependent electronic structure of a solid-state quantum gate as it perfor...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
Coupled electron-nuclear spins are promising physical systems for quantum in-formation processing: B...
A solid-state quantum computer composed entirely of semiconductor silicon is proposed. Qubits are nu...
The transfer of information between different physical forms is a central theme in communication and...
The transfer of information between different physical forms - for example processing entities and m...
We examine a 31P donor electron spin in a Si crystal to be used for the purpose of quantum computati...
A procedure for quantum teleportation in a spin quantum computer was discussed. The quantum logic ga...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
In this chapter we explore the connection between mesoscopic physics and quantum computing. After gi...
abstract: In this paper, optimal control routines are applied to an existing problem of electron sta...
The understanding of weak measurements and interaction-free measurements has greatly expanded the co...
A dynamics of a nuclear-spin quantum computer with a large number (L = 1000) of qubits is considered...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
Quantum computers are machines that exploit the quantum mechanical properties of physical systems to...
We model the evolving time-dependent electronic structure of a solid-state quantum gate as it perfor...
Donors in silicon, which combine an electron and nuclear spin, are some of the most promising candid...
Coupled electron-nuclear spins are promising physical systems for quantum in-formation processing: B...
A solid-state quantum computer composed entirely of semiconductor silicon is proposed. Qubits are nu...