Gaseous ammonia fluorescence probe based on cellulose acetate modified microstructured optical fiber

Optics Communications

Volumn 284, Issue 19, 2011, Pages 4810-4814

  Peng, Lirong ^a   Yang, Xinghua ^a   Yuan, Libo ^a   Wang, Lili ^b   Zhao, Enming ^a   Tian, Fengjun ^a   Liu, Yanxin ^a  

^a HARBIN ENGINEERING UNIVERSITY   (China)

^b XI AN INSTITUTE OF OPTICS AND PRECISION MECHANICS   (China)

Author keywords

Ammonia; Fluorescence; Microstructured optical fiber; Optical sensing

Indexed keywords

AMMONIA GAS; CARRIER GAS; CELLULOSE ACETATES; COATING PROCESS; FLUORESCENCE INTENSITIES; FLUORESCENCE PROBES; GASEOUS AMMONIA; LOW COSTS; MATRIX; MICRO-STRUCTURED OPTICAL FIBERS; OPTICAL FIBER SENSOR; OPTICAL SENSING; PROBE-BASED; RESPONSE RANGE; ROOM TEMPERATURE; SENSING FILMS; SENSING PROBE; SENSING PROPERTY; SHORT RESPONSE TIME; TEST RESULTS;

CELLULOSE; COATINGS; FIBER OPTIC SENSORS; FIBERS; FLUORESCENCE; JAVA PROGRAMMING LANGUAGE; NITROGEN; OPTICAL FIBER FABRICATION; OPTICAL FIBERS; PROBES; SENSORS; VOLATILE FATTY ACIDS;

AMMONIA;

EID: 80051548477     PISSN: 00304018     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.optcom.2011.06.015     Document Type: Article

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