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Accession number:12469848
Title:Comprehensive multi-wavelength laser simulated-testing techniques and application
Authors:Zhibin Chen1; Mingxi Xue1; Yuxiang Liu1; Baohua Liu1
Author affiliation:1 Inst.of Ordnance Technol.,Shijiazhuang,China
Source title:Proceedings of the SPIE - The International Society for Optical Engineering
Abbreviated source title:Proc.SPIE - Int.Soc.Opt.Eng.(USA)
Volume:8201
Publication date:2011
Pages:82010F (9 pp.)
Language:English
ISSN:0277-786X
CODEN:PSISDG
Document type:Conference article (CA)
Conference name:2011 International Conference on Optical Instruments and Technology:Optoelectronic Measurement Technology and Systems
Conference date:6-9 Nov.2011
Conference location:Beijing,China
Publisher:SPIE - The International Society for Optical Engineering
Country of publication:USA
Material Identity Number:AY54-2011-338
Abstract:Receiving system for the laser equipment performance testing,although the use of laser simulation testing equipment can overcome the high cost of traditional methods equipment,strict environmental requirements on the venue and other issues.But in the practical application of various laser devices under test,wavelength and frequency are varies.So that laser simulation testing equipment requires a higher degree of comprehensive and intelligence.Therefore,we propose a new comprehensive multi-wavelength laser simulated-testing technology,and study the design and application of comprehensive laser simulated-testing instrument in the test of receiving system of laser equipment.Our design process in these devices there are two technical bottlenecks for us and we propose efficient solutions:(1)Complex structure of the optical system,the volume mass is too large; (2)Different wavelength laser firing unit with low degree of integration and the high cost of processing.The instrument has the advantage,the ability to easily and real-time test different wavelengths and frequency of laser devices to receiving system with a high degree of device comprehensive and low cost.
Number of references:2
Inspec controlled terms:integrated optics - laser beam applications - optical design techniques - optical elements - optical testing
Uncontrolled terms:multiwavelength laser simulated-testing technology - laser equipment performance testing - laser devices - laser equipment design - optical system - volume mass - laser firing unit - real-time testing
Inspec classification codes:A4262 Laser applications - A4285F Optical testing techniques - A4215E Optical system design - A4282 Integrated optics - A4280 Optical elements,devices and systems - B4360 Laser applications - B4140 Integrated optics
Treatment:Theoretical or Mathematical (THR); Experimental (EXP)
Discipline:Physics (A)
DOI:10.1117/12.904895
Database:Inspec
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