Topics
silicon dioxideChemical substance
Ion implantationElection
resonanceDisease
cryogenicBook
implantationElection
phosphorusMilitary unit
atomic layer depositionTopical concept
This thesis investigates the defects, charge states and spin properties of phosphorus doped silicon, and is motivated by a number of proposals for quantum information processing (QIP) that involve using the spin or charge of individual donors in silicon as qubits. The implantation of phosphorus into silicon is investigated; specifically the ability to remove damage and activate the implanted donors. The impact of implantation on the transport properties of silicon MOSFETs at cryogenic temperatures is used to investigate the damage. Implanting phosphorus into the MOSFET channel leads to reduced electron mobility. The defect density increases linearly with implant density (Δndefect = 0.08 ± 0.01nimplant). Silicon implantation does not sh...
Information, be it classical or quantum mechanical, requires representation in physical reality for ...
In recent years, a variety of solid-state qubits has been realized, including quantum dots, supercon...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
The spins of phosphorus doped in silicon are potential candidates for a quantum computing device, w...
This thesis demonstrates the fabrication and the measurement of single-electron tunnelling through d...
Over the past several decades, quantum information science research has proven its importance to the...
Spin properties of donor impurities in silicon have been investigated by electron spin resonance (ES...
Spins of electrons bound to donor electrons are attractive candidates for exploration of quantum inf...
Phosphorus (31P) doped silicon (Si:P) is a technologically important material with possible uses in ...
© 2020 Danielle HolmesQuantum computers are set to revolutionise technology by harnessing the immens...
The formation of quantum computer test structures in silicon by ion implantation enables the charact...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
© 2020 Aochen DuanQuantum devices that leverage the manufacturing techniques of silicon-based classi...
In this thesis we present single-shot spin readout of precision placed phosphorus donors in silicon....
The size of silicon transistors used in microelectronic devices is shrinking to the level where quan...
Information, be it classical or quantum mechanical, requires representation in physical reality for ...
In recent years, a variety of solid-state qubits has been realized, including quantum dots, supercon...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
The spins of phosphorus doped in silicon are potential candidates for a quantum computing device, w...
This thesis demonstrates the fabrication and the measurement of single-electron tunnelling through d...
Over the past several decades, quantum information science research has proven its importance to the...
Spin properties of donor impurities in silicon have been investigated by electron spin resonance (ES...
Spins of electrons bound to donor electrons are attractive candidates for exploration of quantum inf...
Phosphorus (31P) doped silicon (Si:P) is a technologically important material with possible uses in ...
© 2020 Danielle HolmesQuantum computers are set to revolutionise technology by harnessing the immens...
The formation of quantum computer test structures in silicon by ion implantation enables the charact...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
© 2020 Aochen DuanQuantum devices that leverage the manufacturing techniques of silicon-based classi...
In this thesis we present single-shot spin readout of precision placed phosphorus donors in silicon....
The size of silicon transistors used in microelectronic devices is shrinking to the level where quan...
Information, be it classical or quantum mechanical, requires representation in physical reality for ...
In recent years, a variety of solid-state qubits has been realized, including quantum dots, supercon...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
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