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Semiconductor devices for quantum technologies

Research output: Contribution to conference - Without ISBN/ISSN Abstract

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Semiconductor devices for quantum technologies. / Young, Robert.
2014. Abstract from QuantArm 2014, Yerevan–Tsaghkadzor, United Kingdom.

Research output: Contribution to conference - Without ISBN/ISSN Abstract

Harvard

Young, R 2014, 'Semiconductor devices for quantum technologies', QuantArm 2014, Yerevan–Tsaghkadzor, United Kingdom, 22/09/14.

APA

Young, R. (2014). Semiconductor devices for quantum technologies. Abstract from QuantArm 2014, Yerevan–Tsaghkadzor, United Kingdom.

Vancouver

Young R. Semiconductor devices for quantum technologies. 2014. Abstract from QuantArm 2014, Yerevan–Tsaghkadzor, United Kingdom.

Author

Young, Robert. / Semiconductor devices for quantum technologies. Abstract from QuantArm 2014, Yerevan–Tsaghkadzor, United Kingdom.

Bibtex

@conference{642848d583354c0d931a4f5bfe8c2049,
title = "Semiconductor devices for quantum technologies",
abstract = "In the present day there is only one commercial application of quantum information processing (QIP), quantum key distribution, and the market embracing it is small. The development of further applications requires the realisation of a suite of practical devices that are able to create, buffer, process and repeat quantum information. Semiconductor structures have dominated digital information{\textquoteright}s history, as their ease of use and scalability are both ideal in meeting market demands. In the Quantum Technology Centre at Lancaster University we are developing semiconductor devices for practical applications of QIP, and in this talk I will discuss our progress.",
author = "Robert Young",
year = "2014",
month = sep,
day = "22",
language = "English",
note = "QuantArm 2014 ; Conference date: 22-09-2014",

}

RIS

TY - CONF

T1 - Semiconductor devices for quantum technologies

AU - Young, Robert

PY - 2014/9/22

Y1 - 2014/9/22

N2 - In the present day there is only one commercial application of quantum information processing (QIP), quantum key distribution, and the market embracing it is small. The development of further applications requires the realisation of a suite of practical devices that are able to create, buffer, process and repeat quantum information. Semiconductor structures have dominated digital information’s history, as their ease of use and scalability are both ideal in meeting market demands. In the Quantum Technology Centre at Lancaster University we are developing semiconductor devices for practical applications of QIP, and in this talk I will discuss our progress.

AB - In the present day there is only one commercial application of quantum information processing (QIP), quantum key distribution, and the market embracing it is small. The development of further applications requires the realisation of a suite of practical devices that are able to create, buffer, process and repeat quantum information. Semiconductor structures have dominated digital information’s history, as their ease of use and scalability are both ideal in meeting market demands. In the Quantum Technology Centre at Lancaster University we are developing semiconductor devices for practical applications of QIP, and in this talk I will discuss our progress.

M3 - Abstract

T2 - QuantArm 2014

Y2 - 22 September 2014

ER -