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How to use fiber optic spectrometer

How to use fiber optic spectrometer, Total:137 items.

In the international standard classification, How to use fiber optic spectrometer involves: Fibre optic communications, Analytical chemistry, Physics. Chemistry, Natural gas, Air quality, Pulps, Paper and board, Lubricants, industrial oils and related products, Fuels, Radiation measurements, Wastes, Radiation protection, Soil quality. Pedology, Water quality, Textile fibres, Non-ferrous metals, Testing of metals.

TIA - Telecommunications Industry Association, How to use fiber optic spectrometer

EIA/TIA-455-48B-1990 FOTP-48 Measurement of Optical Fiber Cladding Diameter Using Laser-Based Instruments
TIA/EIA-455-45-B-1992 FOTP-45 Method for Measuring Optical Fiber Geometry Using a Laboratory Microscope (Withdrawn May@ 2003)

British Standards Institution (BSI), How to use fiber optic spectrometer

BS EN 61290-10-1:2003 Optical amplifiers - Test methods - Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer
BS EN 61280-1-1:1998 Optical fibre amplifiers.Basic spectrum analyzers - Transmitter output optical power measurement for single-mode optical fibre cable
BS EN 61290-10-4:2007 Optical amplifiers - Test methods - Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer
BS EN 61290-5-3:2002 Optical fibre amplifiers - Basic specification - Test methods for reflectance parameters - Reflectance tolerance using an electrical spectrum analyser
BS EN 61290-10-1:2009 Optical amplifiers - Test methods - Part 10-1:Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer
18/30382086 DC BS EN 61452. Nuclear instrumentation. Measurement of gamma-ray emission rates of radionuclides. Calibration and use of germanium spectrometers
BS EN 16424:2014 Characterization of waste. Screening methods for the element composition by portable X-ray fluorescence instruments
20/30412413 DC BS EN IEC 61452. Nuclear instrumentation. Measurement of gamma-ray emission rates of radionuclides. Calibration and use of germanium spectrometers
BS IEC 61275:2013 Radiation protection instrumentation. Measurement of discrete radionuclides in the environment. In situ photon spectrometry system using a germanium detector
PD IEC TR 61292-2:2003 Optical amplifier technical reports. Theoretical background for noise figure evaluation using the electrical spectrum analyzer
BS IEC 61452:2021 Nuclear instrumentation. Measurement of activity or emission rate of gamma-ray emitting radionuclides. Calibration and use of germanium-based spectrometers
BS ISO 13196:2013 Soil quality. Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument
BS EN ISO 13196:2015 Soil quality. Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument
BS ISO 21915-3:2020 Textiles. Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends - Blend quantification using spectral analysis method
BS ISO 21915-1:2020 Textiles. Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends - Fibre identification using scanning electron microscopy and spectral analysis methods
19/30366984 DC BS ISO 21915-3. Textiles. Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends. Part 3. Blend quantification using spectral analysis method
19/30366978 DC BS ISO 21915-1. Textiles. Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends. Part 1. Fibre identification using scanning electron microscopy and spectral analysis methods

(U.S.) Telecommunications Industries Association , How to use fiber optic spectrometer

TIA-455-48-B-1990 FOTP- 48 Measurement of Optical Fiber Cladding Diameter Using Laser-Based Instructions
TIA-455-48-B-2000(2014) FOTP- 48 Measurement of Optical Fiber Cladding Diameter Using Laser-Based Instructions
TIA/EIA-455-225-2002 FOTP-225 IEC-61745 End Face Image Analysis Procedure for the Calibration of Optical Fibre Geometry Test Sets

Korean Agency for Technology and Standards (KATS), How to use fiber optic spectrometer

KS C IEC 61290-10-1:2005 Optical amplifiers－Test methods－Part 10－1：Multichannel parameters－Pulse method using an optical switch and optical spectrum analyzer
KS C IEC 61290-10-2:2005 Optical amplifiers－Test methods－Part 10－2：Multichannel parameters－Pulse method using a gated optical spectrum analyzer
KS C IEC 61452-2017(2022) Nuclear instrumentation — Measurement of gamma-ray emission rates of radionuclides — Calibration and use of germanium spectrometers
KS C IEC 61275:2005 Radiation protection instrumentation-Measurement of discrete radionuclides in the environment-In situ photon spectrometry system using a germanium detector
KS C IEC 61275:2016 Radiation protection instrumentation－Measurement of discrete radionuclides in the environment－In situ photon spectrometry system using a germanium detector
KS C IEC 61290-5-3:2003 Basic specification for optical amplifier test methods－Part 5－3：Test methods for reflectance parameters－Reflectance tolerance using an electrical spectrum analyser
KS C IEC 61275-2016(2021) Radiation protection instrumentation－Measurement of discrete radionuclides in the environment－In situ photon spectrometry system using a germanium detector
KS C IEC 61290-5-3-2003(2018)

German Institute for Standardization, How to use fiber optic spectrometer

DIN EN 61290-10-2:2008 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer (IEC 61290-10-2:2007); German version EN 61290-10-2:2008
DIN EN 15483:2009-02 Ambient air quality - Atmospheric measurements near ground with FTIR spectroscopy; German version EN 15483:2008
DIN EN 61290-10-1:2010-01 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer (IEC 61290-10-1:2009); German version EN 61290-10-1:2009 / Note: DIN EN 61290-10-1 (2004-02) remains valid along...
DIN EN 61290-10-4:2008-02 Optical amplifiers - Test methods - Part 10-4: Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer (IEC 61290-10-4:2007); German version EN 61290-10-4:2007 / Note: Applies in conjunction with DIN EN 61291...
DIN EN 61290-10-2:2008-07 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer (IEC 61290-10-2:2007); German version EN 61290-10-2:2008 / Note: DIN EN 61290-10-2 (2004-02) remains valid alongside this stan...
DIN IEC 61275:2014 Radiation protection instrumentation - Measurement of discrete radionuclides in the environment - In situ photon spectrometry system using a germanium detector (IEC 61275:2013)
DIN IEC 61452:2023-02 Nuclear instrumentation - Measurement of activity or emission rate of gamma-ray emitting radionuclides - Calibration and use of germanium-based spectrometers (IEC 61452:2021)
DIN EN 61290-5-3:2002 Optical fibre amplifiers - Basic specification - Part 5-3: Test methods for reflectance parameters; Reflectance tolerance using an electrical spectrum analyser (IEC 61290-5-3:2002); German version EN 61290-5-3:2002
DIN EN ISO 13196:2015-11 Soil quality - Sreening soils for selected elements by energy-dipersive X-ray fluorescence spectrometry using a handheld or portable instrument (ISO 13196:2013); German version EN ISO 13196:2015
DIN EN 16424:2015 Characterization of waste - Screening methods for the element composition by portable X-ray fluorescence instruments; German version EN 16424:2014
DIN EN 61290-10-1:2010 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer (IEC 61290-10-1:2009); German version EN 61290-10-1:2009
DIN EN ISO 13196:2015 Soil quality - Screening soils for selected elements by energy-dipersive X-ray fluorescence spectrometry using a handheld or portable instrument (ISO 13196:2013); German version EN ISO 13196:2015
DIN EN 61300-3-47:2015-04 Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-47: Examinations and measurements - End face geometry of PC/APC spherically polished ferrules using interferometry (IEC 61300-3-47:2014); German...
DIN 25482-4:1995 Limit of detection and limit of decision for nuclear radiation measurements - Part 4: Counting alphaspectrometric measurements, neglecting the influence of sample treatment and equipment used
DIN EN 61300-3-47:2015 Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-47: Examinations and measurements - End face geometry of PC/APC spherically polished ferrules using interferometry (IEC 61300-3-47:2014); German ve

American Society for Testing and Materials (ASTM), How to use fiber optic spectrometer

ASTM E2143-01(2013) Standard Test Method for Using Field-Portable Fiber Optics Synchronous Fluorescence Spectrometer for Quantification of Field Samples for Aromatic and Polycyclic Aromatic Hydrocarbons
ASTM E2143-01(2021) Standard Test Method for Using Field-Portable Fiber Optics Synchronous Fluorescence Spectrometer for Quantification of Field Samples for Aromatic and Polycyclic Aromatic Hydrocarbons
ASTM D7940-14 Standard Practice for Analysis of Liquefied Natural Gas 40;LNG41; by Fiber-Coupled Raman Spectroscopy
ASTM E2056-04(2010) Standard Practice for Qualifying Spectrometers and Spectrophotometers for Use in Multivariate Analyses, Calibrated Using Surrogate Mixtures
ASTM E2056-04(2016) Standard Practice for Qualifying Spectrometers and Spectrophotometers for Use in Multivariate Analyses, Calibrated Using Surrogate Mixtures
ASTM D7417-17 Standard Test Method for Analysis of In-Service Lubricants Using Particular Four-Part Integrated Tester (Atomic Emission Spectroscopy, Infrared Spectroscopy, Viscosity, and Laser Particle Counter)
ASTM D7417-10 Standard Test Method for Analysis of In-Service Lubricants Using Particular Four-Part Integrated Tester (Atomic Emission Spectroscopy, Infrared Spectroscopy, Viscosity, and Laser Particle Counter)
ASTM F1708-96 Standard Practice for Evaluation of Granular Polysilicon by Meter-Zoner Spectroscopies
ASTM D7941/D7941M-23 Standard Test Method for Hydrogen Purity Analysis Using a Continuous Wave Cavity Ring-Down Spectroscopy Analyzer
ASTM D6277-01 Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM D6277-99 Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM D6277-01(2006) Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM D6277-07(2017) Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM D7941/D7941M-14 Standard Test Method for Hydrogen Purity Analysis Using a Continuous Wave Cavity Ring-Down Spectroscopy Analyzer
ASTM D7418-12 Standard Practice for Set-Up and Operation of Fourier Transform Infrared (FT-IR) Spectrometers for In-Service Oil Condition Monitoring
ASTM D6277-07 Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM F1710-97 Standard Test Method for Trace Metallic Impurities in Electronic Grade Titanium by High Mass-Resolution Glow Discharge Mass Spectrometer
ASTM F1710-97(2002) Standard Test Method for Trace Metallic Impurities in Electronic Grade Titanium by High Mass-Resolution Glow Discharge Mass Spectrometer
ASTM D6277-07(2012) Standard Test Method for Determination of Benzene in Spark-Ignition Engine Fuels Using Mid Infrared Spectroscopy
ASTM UOP407-09 Trace Metals in Organics by Dry Ashing - ICP-OES
ASTM F2405-04 Standard Test Method for Trace Metallic Impurities in High Purity Copper by High-Mass-Resolution Glow Discharge Mass Spectrometer
ASTM F1593-08(2016) Standard Test Method for Trace Metallic Impurities in Electronic Grade Aluminum by High Mass-Resolution Glow-Discharge Mass Spectrometer
ASTM F1710-08(2016) Standard Test Method for Trace Metallic Impurities in Electronic Grade Titanium by High Mass-Resolution Glow Discharge Mass Spectrometer
ASTM D6756-09a Standard Test Method for Determination of the Red Dye Concentration and Estimation of the ASTM Color of Diesel Fuel and Heating Oil Using a Portable Visible Spectrophotometer

International Electrotechnical Commission (IEC), How to use fiber optic spectrometer

IEC 61290-10-2:2007 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer
IEC 61290-10-1:2003 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters; Pulse method using an optical switch and optical spectrum analyzer
IEC 61290-10-1:2009 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer
IEC 61290-10-4:2007 Optical amplifiers - Test methods - Part 10-4: Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyser
IEC 61275:1997 Radiation protection instrumentation - Measurement of discrete radionuclides in the environment - In situ photon spectrometry system using a germanium detector
IEC 61275:2013 Radiation protection instrumentation.Measurement of discrete radionuclides in the environment.In situ photon spectrometry system using a germanium detector
IEC 61290-5-3:2002 Optical fibre amplifiers - Basic specifications - Part 5-3: Test methods for reflectance parameters; Reflectance tolerance test method using electrical spectrum analyzer
IEC 61452:2021 Nuclear instrumentation - Measurement of activity or emission rate of gamma- ray emitting radionuclides - Calibration and use of germanium-based spectrometers

Japanese Industrial Standards Committee (JISC), How to use fiber optic spectrometer

JIS C 6122-10-2:2010 Optical amplifiers -- Test methods -- Part 10-2: Multichannel parameters -- Pulse method using a gated optical spectrum analyzer
JIS C 6122-10-4:2012 Optical amplifiers -- Test methods -- Part 10-4: Multichannel parameters -- Interpolated source subtraction method using an optical spectrum analyzer
JIS L 1030-4-3:2023 Textiles -- Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends -- Part 4-3: Blend quantification using spectral analysis method
JIS L 1030-4-1:2023 Textiles -- Qualitative and quantitative analysis of some cellulose fibres (lyocell, cupro) and their blends -- Part 4-1: Fibre identification using scanning electron microscopy and spectral analysis methods

International Organization for Standardization (ISO), How to use fiber optic spectrometer

ISO/TS 10867:2010 Nanotechnologies - Characterization of single-wall carbon nanotubes using near infrared photoluminescence spectroscopy
ISO 13196:2013 Soil quality - Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument
ISO/CD 13196:2023 Soil quality — Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument

Association Francaise de Normalisation, How to use fiber optic spectrometer

NF C93-805-5-3*NF EN 61290-5-3:2002 Optical fibre amplifiers - Basic specification - Part 5-3 : test methods for reflectance parameters - Reflectance tolerance using an electrical spectrum analyser.
NF EN 61290-10-1:2009 Amplificateurs optiques - Méthodes d'essai - Partie 10-1 : paramètres à canaux multiples - Méthode d'impulsion utilisant un interrupteur optique et un analyseur de spectre optique
NF C93-805-10-4*NF EN 61290-10-4:2007 Optical amplifiers - Test methods - Part 10-4 : multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer
NF EN 61290-10-2:2008 Amplificateurs optiques - Méthodes d'essai - Partie 10-2 : paramètres à canaux multiples - Méthode d'impulsion utilisant un analyseur de spectre optique stroboscopique
NF EN 61290-10-4:2007 Amplificateurs optiques - Méthodes d'essai - Partie 10-4 : paramètres à canaux multiples - Méthode par soustraction de source interpolée en utilisant un analyseur de spectre optique
NF C93-805-10-2:2003 Optical amplifiers - Test methods - Part 10-2 : multichannel parameters - Pulse method using a gated optical spectrum analyzer.
NF C93-805-10-2*NF EN 61290-10-2:2008 Optical amplifiers - Test methods - Part 10-2 : multichannel parameters - Pulse method using a gated optical spectrum analyzer
NF X30-495*NF EN 16424:2014 Characterization of waste - Screening methods for the element composition by portable X-ray fluorescence intruments
NF X31-013:2013 Soil quality - Screening soils for selected elements by energy dispersive X-ray fluorescence spectrometry using a handheld or portable instrument
NF EN 61290-5-3:2002 Amplificateurs à fibres optiques - Spécification de base - Partie 5-3 : méthodes d'essai des paramètres de réflectance - Tolérance de réflectance en utilisant un analyseur de spectre électrique
NF EN ISO 13196:2015 Qualité du sol - Analyse rapide d'une sélection d'éléments dans les sols à l'aide d'un spectromètre de fluorescence X à dispersion d'énergie portable ou portatif
NF X31-013*NF EN ISO 13196:2015 Soil quality - Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument
NF C93-903-47*NF EN 61300-3-47:2014 Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-47 : examinations and measurements - End face geometry of PC/APC spherically polished ferrules using interferometry

Danish Standards Foundation, How to use fiber optic spectrometer

DS/EN 15483:2009 Ambient air quality - Atmospheric measurements near ground with FTIR spectroscopy
DS/EN 61290-10-1:2009 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer
DS/EN 61290-10-2:2008 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer
DS/EN 61290-10-4:2007 Optical amplifiers - Test methods - Part 10-4: Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer
DS/EN 61290-5-3:2002 Optical fibre amplifiers - Basic specification - Part 5-3: Test methods for reflectance parameters - Reflectance tolerance using an electrical spectrum analyser
DS/ISO 13196:2013 Soil quality - Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument

Lithuanian Standards Office , How to use fiber optic spectrometer

LST EN 15483-2009 Ambient air quality - Atmospheric measurements near ground with FTIR spectroscopy
LST EN 61290-10-1-2009 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer (IEC 61290-10-1:2009)
LST EN 61290-10-2-2008 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer (IEC 61290-10-2:2007)
LST EN 61290-10-4-2007 Optical amplifiers - Test methods - Part 10-4: Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer (IEC 61290-10-4:2007)
LST EN 61290-5-3-2003 Optical fibre amplifiers. Basic specification. Part 5-3: Test methods for reflectance parameters. Reflectance tolerance using an electrical spectrum analyzer (IEC 61290-5-3:2002)
LST EN ISO 10703:2021 Water quality - Gamma-ray emitting radionuclides - Test method using high resolution gamma-ray spectrometry (ISO 10703:2021)

AENOR, How to use fiber optic spectrometer

UNE-EN 15483:2009 Ambient air quality - Atmospheric measurements near ground with FTIR spectroscopy

American National Standards Institute （ANSI), How to use fiber optic spectrometer

ANSI/TAPPI T271 om-2012 Fiber length of pulp and paper by automated optical analyzer using polarized light

European Committee for Electrotechnical Standardization（CENELEC）, How to use fiber optic spectrometer

EN 61290-10-1:2009 Optical amplifiers - Test methods - Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer
EN 61290-5-3:2002 Optical Fibre Amplifiers - Basic Specification Part 5-3: Test Methods for Reflectance Parameters - Reflectance Tolerance Using an Electrical Spectrum Analyser
EN 61300-3-47:2014 Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-47: Examinations and measurements - End face geometry of PC/APC spherically polished ferrules using interferometry

Professional Standard - Energy, How to use fiber optic spectrometer

NB/SH/T 0940-2016 Test method for the analysis of in-use lubricants using a specific 4-in-1 tester (Atomic Emission Spectroscopy, Infrared Spectroscopy, Viscosity and Laser Particle Counter)

国家能源局, How to use fiber optic spectrometer

SH/T 0940-2016 Test methods for analyzing in-service lubricants using specific four-in-one testers (atomic emission spectrometry, infrared spectroscopy, viscosity and laser particle counter)

CENELEC - European Committee for Electrotechnical Standardization, How to use fiber optic spectrometer

EN 61290-10-1:2003 Optical amplifiers Test methods Part 10-1: Multichannel parameters Pulse method using an optical switch and optical spectrum analyzer
EN 61290-10-2:2003 Optical amplifiers - Test methods Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer
EN 61290-10-2:2008 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer

ES-UNE, How to use fiber optic spectrometer

UNE-EN 61290-10-1:2009 Optical amplifiers - Test methods -- Part 10-1: Multichannel parameters - Pulse method using an optical switch and optical spectrum analyzer (Endorsed by AENOR in July of 2009.)
UNE-EN 61290-10-2:2008 Optical amplifiers - Test methods - Part 10-2: Multichannel parameters - Pulse method using a gated optical spectrum analyzer (Endorsed by AENOR in May of 2008.)
UNE-EN 61290-5-3:2002 Optical fibre amplifiers - Basic specification -- Part 5-3: Test methods for reflectance parameters - Reflectance tolerance using an electrical spectrum analyser. (Endorsed by AENOR in October of 2002.)
UNE-EN 61290-10-4:2007 Optical amplifiers - Test methods -- Part 10-4: Multichannel parameters - Interpolated source subtraction method using an optical spectrum analyzer (IEC 61290-10-4:2007). (Endorsed by AENOR in November of 2007.)
UNE-EN ISO 13196:2015 Soil quality - Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument (ISO 13196:2013) (Endorsed by AENOR in September of 2015.)
UNE-EN 61300-3-47:2014 Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 3-47: Examinations and measurements - End face geometry of PC/APC spherically polished ferrules using interferometry (Endorsed by AENOR in Novembe...

KR-KS, How to use fiber optic spectrometer

KS C IEC 61452-2017 Nuclear instrumentation — Measurement of gamma-ray emission rates of radionuclides — Calibration and use of germanium spectrometers
KS C IEC 61275-2016 Radiation protection instrumentation－Measurement of discrete radionuclides in the environment－In situ photon spectrometry system using a germanium detector
KS I ISO 11348-2-2009 Water quality－Determination of the inhibitory effect of water samples on the light emission of vibrio fischeri(Luminescent bacteria test)－Part 2：method using liquid-dried bacteria

IEEE - The Institute of Electrical and Electronics Engineers@ Inc., How to use fiber optic spectrometer

IEEE N42.14-1991 Calibration and Use of Germanium Spectrometers for the Measurement of Gamma-Ray Emission Rates of Radionuclides

Institute of Electrical and Electronics Engineers (IEEE), How to use fiber optic spectrometer

IEEE/ANSI N42.14-1999 Calibration and use of germanium spectrometers for the measurement of gammma-ray emission rates of radionuclides
ANSI Std N42.14-1991 American National Standard Calibration and Use of Germanium Spectrometers for the Measurement of Gamma-Ray Emission Rates of Radionuclides

European Committee for Standardization (CEN), How to use fiber optic spectrometer

EN ISO 13196:2015 Soil quality - Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument (ISO 13196:2013)
prEN ISO 13196 rev Soil quality — Screening soils for selected elements by energy-dispersive X-ray fluorescence spectrometry using a handheld or portable instrument

Standard Association of Australia （SAA）, How to use fiber optic spectrometer

AS/NZS 3580.15:2014
AS 4479.4:1999 Analysis of soils - Determination of metals in aqua regia extracts of soil by inductively coupled plasma-atomic emission spectrometry

IT-UNI, How to use fiber optic spectrometer

UNI EN ISO 10703:2021 Water quality - Gamma-ray emitting radionuclides - Test method using high resolution gamma-ray spectrometry.

CH-SNV, How to use fiber optic spectrometer

SN EN ISO 10703:2021 Water quality - Gamma-ray emitting radionuclides - Test method using high resolution gamma-ray spectrometry (ISO 10703:2021)