Squashing Models for Optical Measurements in Quantum Communication

Many protocols and experiments in quantum information science are described in terms of simple measurements on qubits. However, in an experimental implementation, the exact description of the measurement is usually more complicated. If there is a claim made from the results of an experiment by using...

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Main Author: Beaudry, Normand James
Language:en
Published: 2009
Subjects:
Online Access:http://hdl.handle.net/10012/4800
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OWTU.10012-48002013-10-04T04:09:40ZBeaudry, Normand James2009-10-02T19:29:14Z2009-10-02T19:29:14Z2009-10-02T19:29:14Z2009http://hdl.handle.net/10012/4800Many protocols and experiments in quantum information science are described in terms of simple measurements on qubits. However, in an experimental implementation, the exact description of the measurement is usually more complicated. If there is a claim made from the results of an experiment by using the simplified measurement description, then do the claims still hold when the more realistic description is taken into account? We present a "squashing" model that decomposes the realistic measurement description into first a map, followed by a simplified measurement. The squashing model then provides a connection between a realistic measurement and an ideal measurement. If the squashing model exists for a given measurement, then all claims made about a measurement using the simplified description also apply to the complicated one. We give necessary and sufficient conditions to determine when this model exists. We show how it can be applied to quantum key distribution, entanglement verification, and other quantum communication protocols. We also consider several examples of detectors commonly used in quantum communication to determine if they have squashing models.enquantum communicationopticscryptographyquantum key distributionphysicsquantumSquashing Models for Optical Measurements in Quantum CommunicationThesis or DissertationPhysics and AstronomyMaster of SciencePhysics
collection NDLTD
language en
sources NDLTD
topic quantum communication
optics
cryptography
quantum key distribution
physics
quantum
Physics
spellingShingle quantum communication
optics
cryptography
quantum key distribution
physics
quantum
Physics
Beaudry, Normand James
Squashing Models for Optical Measurements in Quantum Communication
description Many protocols and experiments in quantum information science are described in terms of simple measurements on qubits. However, in an experimental implementation, the exact description of the measurement is usually more complicated. If there is a claim made from the results of an experiment by using the simplified measurement description, then do the claims still hold when the more realistic description is taken into account? We present a "squashing" model that decomposes the realistic measurement description into first a map, followed by a simplified measurement. The squashing model then provides a connection between a realistic measurement and an ideal measurement. If the squashing model exists for a given measurement, then all claims made about a measurement using the simplified description also apply to the complicated one. We give necessary and sufficient conditions to determine when this model exists. We show how it can be applied to quantum key distribution, entanglement verification, and other quantum communication protocols. We also consider several examples of detectors commonly used in quantum communication to determine if they have squashing models.
author Beaudry, Normand James
author_facet Beaudry, Normand James
author_sort Beaudry, Normand James
title Squashing Models for Optical Measurements in Quantum Communication
title_short Squashing Models for Optical Measurements in Quantum Communication
title_full Squashing Models for Optical Measurements in Quantum Communication
title_fullStr Squashing Models for Optical Measurements in Quantum Communication
title_full_unstemmed Squashing Models for Optical Measurements in Quantum Communication
title_sort squashing models for optical measurements in quantum communication
publishDate 2009
url http://hdl.handle.net/10012/4800
work_keys_str_mv AT beaudrynormandjames squashingmodelsforopticalmeasurementsinquantumcommunication
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