BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM

Impact of registered optical radiation intensity, overvoltage, dimensions of photosensitive surface, structure of p-n junction and avalanche photodetectors dead time operating in the photon counting mode on quantum optical system capacity has been carried out in this investigation. As a result, the...

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Main Authors:	I. R. Gulakov, A. O. Zenevich, A. M. Timofeev
Format:	Article
Language:	English
Published:	Belarusian National Technical University 2015-04-01
Series:	Pribory i Metody Izmerenij
Subjects:	счетчик фотонов лавинный фотоприемник мертвое время пропускная способность квантовая оптическая система связи
Online Access:	https://pimi.bntu.by/jour/article/view/127

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author	I. R. Gulakov A. O. Zenevich A. M. Timofeev
author_facet	I. R. Gulakov A. O. Zenevich A. M. Timofeev
author_sort	I. R. Gulakov
collection	DOAJ
description	Impact of registered optical radiation intensity, overvoltage, dimensions of photosensitive surface, structure of p-n junction and avalanche photodetectors dead time operating in the photon counting mode on quantum optical system capacity has been carried out in this investigation. As a result, the quantum optical system maximum capacity of 81 kbit/s has been obtained.
first_indexed	2024-04-10T01:38:36Z
format	Article
id	doaj.art-dd20e8b0e7e64a9d8a241666f6919c69
institution	Directory Open Access Journal
issn	2220-9506 2414-0473
language	English
last_indexed	2024-04-10T01:38:36Z
publishDate	2015-04-01
publisher	Belarusian National Technical University
record_format	Article
series	Pribory i Metody Izmerenij
spelling	doaj.art-dd20e8b0e7e64a9d8a241666f6919c692023-03-13T09:14:45ZengBelarusian National Technical UniversityPribory i Metody Izmerenij2220-95062414-04732015-04-0101104109121BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEMI. R. Gulakov0A. O. Zenevich1A. M. Timofeev2Высший государственный колледж связи, г. МинскВысший государственный колледж связи, г. МинскВысший государственный колледж связи, г. МинскImpact of registered optical radiation intensity, overvoltage, dimensions of photosensitive surface, structure of p-n junction and avalanche photodetectors dead time operating in the photon counting mode on quantum optical system capacity has been carried out in this investigation. As a result, the quantum optical system maximum capacity of 81 kbit/s has been obtained.https://pimi.bntu.by/jour/article/view/127счетчик фотоновлавинный фотоприемникмертвое времяпропускная способностьквантовая оптическая система связи
spellingShingle	I. R. Gulakov A. O. Zenevich A. M. Timofeev BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM Pribory i Metody Izmerenij счетчик фотонов лавинный фотоприемник мертвое время пропускная способность квантовая оптическая система связи
title	BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM
title_full	BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM
title_fullStr	BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM
title_full_unstemmed	BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM
title_short	BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM
title_sort	bandwidth of quantum optical communication system
topic	счетчик фотонов лавинный фотоприемник мертвое время пропускная способность квантовая оптическая система связи
url	https://pimi.bntu.by/jour/article/view/127
work_keys_str_mv	AT irgulakov bandwidthofquantumopticalcommunicationsystem AT aozenevich bandwidthofquantumopticalcommunicationsystem AT amtimofeev bandwidthofquantumopticalcommunicationsystem

BANDWIDTH OF QUANTUM OPTICAL COMMUNICATION SYSTEM

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