Over the past 15 years ion traps have demonstrated all the building blocks required of a quantum computer. Despite this success, trapping ions remains a challenging task, with the requirement for extensive laser systems and vacuum systems to perform operations on only a handful of qubits. To scale these proof of principle experiments into something that can outperform a classical computer requires an advancement in the trap technologies that will allow multiple trapping zones, junctions and utilize scalable fabrication technologies. I will discuss the construction of an ion trapping experiment, focussing on my work towards the laser stabilization and ion trap design but also covering the experimental setup as a whole. The vacuum system that...
There has been a great deal of effort and progress made towards building a fully scalable quantum co...
Trapped ions in linear Paul traps are largely isolated from interaction with the environment. This p...
Quantum information technology has the potential to revolutionise a wide range of research fields a...
Microfabricated ion traps are an important tool in the development of scalable quantum systems. Tre...
Trapped ions within Paul traps have shown to be a promising architecture in the realisation of a qu...
Quantum technology has made great strides in the last two decades with trapped ions demonstrating a...
Trapped ions in linear Paul traps are largely isolated from interaction with the environment. This p...
This thesis describes the experimental work towards the development of a scalable quantum computer b...
The electromagnetic manipulation of isolated ions has led to many advances in atomic physics, from ...
The electromagnetic manipulation of isolated ions has led to many advances in atomic physics, from ...
Ions trapped in Paul traps provide a system which has been shown to exhibit most of the properties r...
Ion traps offer the opportunity to study fundamental quantum systems with high level of accuracy hig...
The prospect of building a quantum information processor underlies many recent advances ion trap fab...
Atomic ions trapped in electromagnetic potentials have long been used for fundamental studies in qua...
For quantum computers to become a reality, high-fidelity logic gates are required to be implemented ...
There has been a great deal of effort and progress made towards building a fully scalable quantum co...
Trapped ions in linear Paul traps are largely isolated from interaction with the environment. This p...
Quantum information technology has the potential to revolutionise a wide range of research fields a...
Microfabricated ion traps are an important tool in the development of scalable quantum systems. Tre...
Trapped ions within Paul traps have shown to be a promising architecture in the realisation of a qu...
Quantum technology has made great strides in the last two decades with trapped ions demonstrating a...
Trapped ions in linear Paul traps are largely isolated from interaction with the environment. This p...
This thesis describes the experimental work towards the development of a scalable quantum computer b...
The electromagnetic manipulation of isolated ions has led to many advances in atomic physics, from ...
The electromagnetic manipulation of isolated ions has led to many advances in atomic physics, from ...
Ions trapped in Paul traps provide a system which has been shown to exhibit most of the properties r...
Ion traps offer the opportunity to study fundamental quantum systems with high level of accuracy hig...
The prospect of building a quantum information processor underlies many recent advances ion trap fab...
Atomic ions trapped in electromagnetic potentials have long been used for fundamental studies in qua...
For quantum computers to become a reality, high-fidelity logic gates are required to be implemented ...
There has been a great deal of effort and progress made towards building a fully scalable quantum co...
Trapped ions in linear Paul traps are largely isolated from interaction with the environment. This p...
Quantum information technology has the potential to revolutionise a wide range of research fields a...
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