A new design of pulsed laser diode driver system for multistate quantum key distribution

In this paper, we describe a new design of laser diode driver system based on MOSFET current mirror and digital signal controller (DSC). The system is designed to emit stream pairs of photons from three semiconductor laser diodes. The DSC is able to switch between the three laser diodes at constant...

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Main Authors: Abdullah M.S., Jamaludin M.Z., Witjaksono G., Mokhtar M.H.H.
Other Authors: 16021116200
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Published: 2023
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spelling my.uniten.dspace-295702023-12-28T15:05:41Z A new design of pulsed laser diode driver system for multistate quantum key distribution Abdullah M.S. Jamaludin M.Z. Witjaksono G. Mokhtar M.H.H. 16021116200 57216839721 6602389719 16022476200 Quantum key distribution Six quantum states Weak coherence laser pulse Laser pulses Lasers Mirrors MOSFET devices Quantum chemistry Quantum cryptography Quantum theory Semiconductor diodes Semiconductor lasers Biphotons Constant rate Current mirrors Current-mirror circuits Digital signal controllers Duty cycles Laser diode drivers Laser diodes Laser driver Modulation current MOS-FET Multi state New design Peak currents Pulsed laser diodes Quantum key distribution Quantum state Semiconductor laser diodes Weak coherence laser pulse Pulsed lasers In this paper, we describe a new design of laser diode driver system based on MOSFET current mirror and digital signal controller (DSC). The system is designed to emit stream pairs of photons from three semiconductor laser diodes. The DSC is able to switch between the three laser diodes at constant rate. The duty cycle is maintained at 1% in order to reduce its thermal effect and thus prolong the laser diodes' life cycles. The MOSFET current mirror circuits are capable of delivering constant modulation current with peak current up to 58 mA to each laser diode. This laser driver system will allow the generating biphotons automatically with qubit rate around 813% for ? less than or equal to 1, thus making it practical for six-states quantum key distribution implementation. � 2010 Elsevier Ltd. All rights reserved. Final 2023-12-28T07:05:41Z 2023-12-28T07:05:41Z 2011 Article 10.1016/j.optlastec.2010.12.002 2-s2.0-79951678101 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79951678101&doi=10.1016%2fj.optlastec.2010.12.002&partnerID=40&md5=73448937039466b255315ecc12da4625 https://irepository.uniten.edu.my/handle/123456789/29570 43 5 978 983 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Quantum key distribution
Six quantum states
Weak coherence laser pulse
Laser pulses
Lasers
Mirrors
MOSFET devices
Quantum chemistry
Quantum cryptography
Quantum theory
Semiconductor diodes
Semiconductor lasers
Biphotons
Constant rate
Current mirrors
Current-mirror circuits
Digital signal controllers
Duty cycles
Laser diode drivers
Laser diodes
Laser driver
Modulation current
MOS-FET
Multi state
New design
Peak currents
Pulsed laser diodes
Quantum key distribution
Quantum state
Semiconductor laser diodes
Weak coherence laser pulse
Pulsed lasers
spellingShingle Quantum key distribution
Six quantum states
Weak coherence laser pulse
Laser pulses
Lasers
Mirrors
MOSFET devices
Quantum chemistry
Quantum cryptography
Quantum theory
Semiconductor diodes
Semiconductor lasers
Biphotons
Constant rate
Current mirrors
Current-mirror circuits
Digital signal controllers
Duty cycles
Laser diode drivers
Laser diodes
Laser driver
Modulation current
MOS-FET
Multi state
New design
Peak currents
Pulsed laser diodes
Quantum key distribution
Quantum state
Semiconductor laser diodes
Weak coherence laser pulse
Pulsed lasers
Abdullah M.S.
Jamaludin M.Z.
Witjaksono G.
Mokhtar M.H.H.
A new design of pulsed laser diode driver system for multistate quantum key distribution
description In this paper, we describe a new design of laser diode driver system based on MOSFET current mirror and digital signal controller (DSC). The system is designed to emit stream pairs of photons from three semiconductor laser diodes. The DSC is able to switch between the three laser diodes at constant rate. The duty cycle is maintained at 1% in order to reduce its thermal effect and thus prolong the laser diodes' life cycles. The MOSFET current mirror circuits are capable of delivering constant modulation current with peak current up to 58 mA to each laser diode. This laser driver system will allow the generating biphotons automatically with qubit rate around 813% for ? less than or equal to 1, thus making it practical for six-states quantum key distribution implementation. � 2010 Elsevier Ltd. All rights reserved.
author2 16021116200
author_facet 16021116200
Abdullah M.S.
Jamaludin M.Z.
Witjaksono G.
Mokhtar M.H.H.
format Article
author Abdullah M.S.
Jamaludin M.Z.
Witjaksono G.
Mokhtar M.H.H.
author_sort Abdullah M.S.
title A new design of pulsed laser diode driver system for multistate quantum key distribution
title_short A new design of pulsed laser diode driver system for multistate quantum key distribution
title_full A new design of pulsed laser diode driver system for multistate quantum key distribution
title_fullStr A new design of pulsed laser diode driver system for multistate quantum key distribution
title_full_unstemmed A new design of pulsed laser diode driver system for multistate quantum key distribution
title_sort new design of pulsed laser diode driver system for multistate quantum key distribution
publishDate 2023
_version_ 1806425878556573696
score 13.220975