Add to ORKGA string of cold ions confined in a linear trap represents a man-made quantum object with a broad range of applications in atomic and molecular spectroscopy, such as high-precision measurement of atomic properties. An efficient isolation from the environment guarantees excellent coherent properties of such systems and makes them suitable for practical realization of the quantum information processing. The pioneering theoretical [Cirac and Zoller] and experimental [Wineland and Monroe] work in 1990s resulted in the explosive expansion of this field during the last decade. In this dissertation an alternative new method for controlling the quantized motional/vibrational states of ions in a trap is explored theoretically. It is proposed to crea...
The controlled manipulation of quantum states of single trapped atomic ions forms the basis of some ...
Quantum optimal control theory is applied to find optimal pulses for controlling the motion of an io...
This thesis is concerned with various aspects of ion traps and their use as a quantum simulation and...
Following a recent proposal[1], we theoretically illustrate the possibility of using the motional st...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
Experiments directed towards the development of a quantum computer based on trapped atomic ions are ...
The purpose of this work is to investigate methods by which the quantum states of trapped ions may b...
We show that a series of quantum computations involving an isolated N-quantum-bit ion register can b...
We investigate in detail the effects of a QND vibrational number measurement made on single ions in ...
We propose a large-scale quantum computer architecture by more easily stabilizing a single large lin...
The trapped ions platform represents an excellent framework for Quantum information science experime...
Universal quantum computation requires precision control of the dynamics of qubits. Frequently accur...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.This electronic versi...
There is currently intensive research into creating a large-scale quantum computer with trapped ions...
From subatomic particles to macromolecules, quantum mechanics has a deep impact in understanding the...
The controlled manipulation of quantum states of single trapped atomic ions forms the basis of some ...
Quantum optimal control theory is applied to find optimal pulses for controlling the motion of an io...
This thesis is concerned with various aspects of ion traps and their use as a quantum simulation and...
Following a recent proposal[1], we theoretically illustrate the possibility of using the motional st...
Trapped atomic ion systems are currently the most advanced platform for quantum information processi...
Experiments directed towards the development of a quantum computer based on trapped atomic ions are ...
The purpose of this work is to investigate methods by which the quantum states of trapped ions may b...
We show that a series of quantum computations involving an isolated N-quantum-bit ion register can b...
We investigate in detail the effects of a QND vibrational number measurement made on single ions in ...
We propose a large-scale quantum computer architecture by more easily stabilizing a single large lin...
The trapped ions platform represents an excellent framework for Quantum information science experime...
Universal quantum computation requires precision control of the dynamics of qubits. Frequently accur...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2008.This electronic versi...
There is currently intensive research into creating a large-scale quantum computer with trapped ions...
From subatomic particles to macromolecules, quantum mechanics has a deep impact in understanding the...
The controlled manipulation of quantum states of single trapped atomic ions forms the basis of some ...
Quantum optimal control theory is applied to find optimal pulses for controlling the motion of an io...
This thesis is concerned with various aspects of ion traps and their use as a quantum simulation and...