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emission spectrum peak

emission spectrum peak, Total:92 items.

In the international standard classification, emission spectrum peak involves: Semiconductor devices, Optoelectronics. Laser equipment, Telecommunications in general, Non-ferrous metals, Optics and optical measurements, Vocabularies, Analytical chemistry, Ferrous metals, Iron and steel products, Testing of metals, Electronic components in general, Ferroalloys.

Professional Standard - Electron, emission spectrum peak

SJ/T 2658.12-2015 Measuring method for semiconductor infrared-emitting diode.Part 12: Peak-emission wavelength and spectral radiant bandwidth
SJ 2658.12-1986 Methods of measurement for semiconductor infrared diodes Methods of measurement for peak emission wavelength and spectral half width
SJ 2355.7-1983 Method of measurement for peak emission wavelength and spectral radiation bandwidth of light-emitting devices
SJ/Z 3206.10-1989 General rules for analysis of properties of emision spectrum
SJ/Z 3206.11-1989 General rules for analysis of quantities of emision spectrum
SJ/Z 3206.2-1989 Laser source and its performance requirements for determination of emision spectrum

National Metrological Verification Regulations of the People's Republic of China, emission spectrum peak

JJG 768-2005 Emission Spectrometer
JJG 768-1994 Verification Regulation of Emission Spectrometer

International Telecommunication Union (ITU), emission spectrum peak

ITU-R QUESTION 222/1-2000 Definition of the spectral properties of transmitter emissions
ITU-R SM.328-2006 Spectra and bandwidth of emissions
ITU-R SM.328-11-2006 Spectra and bandwidth of emissions
ITU-R SM.328-11 FRENCH-2006 Spectra and bandwidth of emissions
ITU-R SM.328-11 SPANISH-2006 Spectra and bandwidth of emissions

ITU-R - International Telecommunication Union/ITU Radiocommunication Sector, emission spectrum peak

ITU-R SM.328-9-1997 Spectra and Bandwidth of Emissions
ITU-R SM.328-8-1994 Spectra and Bandwidth of Emissions

RO-ASRO, emission spectrum peak

STAS 5177-1981 EMISSION SPECTROGRAPHICAL ANALYSIS Terminology
STAS 12814-1990 ALUMINIUM AND ALUMINIUM ALLOYS Analysis by optical emission spectro- metry

Korean Agency for Technology and Standards (KATS), emission spectrum peak

KS D 2086-2004 Method for atomic emission spectrometric analysis of titanium
KS D 2558-1995 Method for emission spectrographic analysis of tantalum
KS D 1684-1993 Methods for emission spectrographic analysis of magnesium ingot
KS D 1682-1993 Methods for emission spectrochemical analysis of lead ingot
KS D 1684-1985 Methods for emission spectrographic analysis of magnesium ingot
KS D 1682-2020 Method for photoelectric emission spectrochemical analysis of lead metal
KS D 2569-2005 Methods for ICP emission spectrometric analysis of tantalum
KS D 2569-2016 Methods for ICP emission spectrometric analysis of tantalum
KS D 2569-2016(2021) Methods for ICP emission spectrometric analysis of tantalum
KS D 2518-2015 Methods for photoelectric emission spectrochemical analysis of cadmium metal
KS D 1681-2003 Method for emission spectrochemica1 analysis of aluminium ingot
KS D 1684-2008 Methods for emission spectrographic analysis of magnesium ingot
KS D 1682-2008 Methods for emission spectrochemical analysis of lead ingot
KS D 1681-1993 Method for emission spectrochemical analysis of aluminium ingot
KS D 2086-1993 Methods for emission spectrochemical analysis of titanium
KS D 1684-2008(2018) Methods for emission spectrographic analysis of magnesium ingot
KS D 2086-2019 Methods for atomic emission spectrometric analysis of titanium
KS D 2518-2015(2020) Methods for photoelectric emission spectrochemical analysis of cadmium metal
KS D 1650-1993 General rules for photoelectric emission spectrochemical analysis of metal materials
KS D 1899-2003 Methods for emission spectrochemical analysis of electrolytic cathode copper
KS D 1683-1993 Method for emission spectrochemical analysis of silver ingot
KS D 1681-2018 Method for emission spectrochemical analysis of aluminium ingot
KS M 0032-2009(2019) General rules for ICP emission spectrochemical analysis

Professional Standard - Non-ferrous Metal, emission spectrum peak

YS/T 631-2007 Methods for analysis of zinc.The optical emission spectrometry
YS/T 558-2009 Methods for emission spectrum analysis of molybdenum
YS/T 559-2009 Methods for emission spectrum analysis of tungsten
YS/T 558-2006 Molybdenum Emission Spectroscopy Analysis Method
YS/T 559-2006 Tungsten Emission Spectroscopy Analysis Method
YS/T 482-2005 Methods for analysis of copper and copper alloys-The atomic emission spectrometry

German Institute for Standardization, emission spectrum peak

DIN 5030-5:1987 Spectral measurement of radiation; physical detectors for spectral measurement of radiation; terminology, characteristic quantities, selection criteria

RU-GOST R, emission spectrum peak

GOST 17261-2008 Zinc. Methods of atomic-emission spectral analysis
GOST R 54153-2010 Steel. Method of atomic emission spectral analysis
GOST 6012-2011 Nickel. Methods of chemical-atomic-emission spectral analysis
GOST 8776-2010 Cobalt. Methods of chemical-atomic-emission spectral analysis
GOST 6012-1978 Nickel. Methods of chemical-atomic-emission spectral analysis

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, emission spectrum peak

GB/T 16599-1996 Methods for emission spectrum analysis of molybdenum
GB/T 16600-1996 Methods for emission spectrum analysis of tungsten
GB/T 9259-1988 Terminology of emission spectochemical analysis
GB/T 11170-1989 Method for photoelectric emission spectroscopic analysis of stainless steel
GB/T 14203-1993 General rule for photoelectric emission spectroscopic analysis of iron, steel and alloy
GB/T 26042-2010 Methods for analysis of zinc and zinc alloys.The optical emission spectrometry
GB/T 7999-2000 Standard method for direct reading spectromertric analysis of aluminum and its alloys

Association Francaise de Normalisation, emission spectrum peak

NF A07-510X2:1975 ANALYSIS OF NON-ALLOYED ALUMINIUM BY EMISSION SPECTROGRAPHY.
NF A06-840:1998 Zinc and zinc alloys. Optical emission spectrometric analysis.
NF A07-510:1971 Analysis of non-alloyed aluminium by emission spectrography.
NF A07-515:1971 Analysis of aluminium copper alloys by emission spectrography.
NF A07-500:1979 Analysis of aluminium and its alloys by emission spectrometry.

Japanese Industrial Standards Committee (JISC), emission spectrum peak

JIS H 1691:1968 Method for spectrochemical analysis of tantalum
JIS H 1183:2007 Method for emission spectrochemical analysis of silver bullion
JIS H 1123:2021 Method for photoelectric emission spectrochemical analysis of lead metal
JIS H 1630:1995 Method for atomic emission spectrometric analysis of titanium
JIS H 1630:1975 Method for atomic emission spectrometric analysis of titanium
JIS K 0116:2003 General rules for atomic emission spectrometry
JIS K 0116:2014 General rules for atomic emission spectrometry
JIS H 1305:2005 Method for optical emission spectrochemical analysis of aluminium and aluminium alloys
JIS G 1202:1975 General rules on emission-spectroscopic analysis for iron and steel
JIS H 1123:1995 Method for photoelectric emission spectrochemical analysis of lead metal
JIS H 1163:1991 Method for photoelectric emission spectrochemical analysis of cadmium metal
JIS H 1113:2022 Method for photoelectric emission spectrochemical analysis of zinc metal
JIS H 1303:1976 Method for emission spectrochemical analysis of aluminium ingot
JIS H 1322:1976 Method for emission spectrochemical analysis of magnesium ingot

American Society for Testing and Materials (ASTM), emission spectrum peak

ASTM E1621-21 Standard Guide for X-Ray Emission Spectrometric Analysis
ASTM E1621-05 Standard Guide for X-Ray Emission Spectrometric Analysis

British Standards Institution (BSI), emission spectrum peak

BS EN 12019:1998 Zinc and Zinc Alloys - Optical Emission Spectrometric Analysis
BS ISO 19830:2015 Surface chemical analysis. Electron spectroscopies. Minimum reporting requirements for peak fitting in X-ray photoelectron spectroscopy
BS DD ENV 12908:1998 Lead and lead alloys - Analysis by optical emission spectrometry (OES) with spark excitation

European Committee for Standardization (CEN), emission spectrum peak

EN 12019:1997 Zinc and Zinc Alloys - Optical Emission Spectrometric Analysis

IN-BIS, emission spectrum peak

IS 7072-1973

Professional Standard - Commodity Inspection, emission spectrum peak

SN/T 2785-2011 Photoelectric Emission Spectroscopic Analysis of Zinc and Zinc Alloys
SN/T 2786-2011 Photoelectric Emission Spectroscopic Analysis of Magnesium and Magnesium Alloys

Danish Standards Foundation, emission spectrum peak

DS/ENV 12908:1998 Lead and lead alloys - Analysis by optical emission spectrometry (OES) with spark excitation

Lithuanian Standards Office , emission spectrum peak

LST L ENV 12908-2000 Lead and lead alloys - Analysis by Optical Emission Spectrometry (OES) with spark excitation

International Organization for Standardization (ISO), emission spectrum peak

ISO 19830:2015 Surface chemical analysis - Electron spectroscopies - Minimum reporting requirements for peak fitting in X-ray photoelectron spectroscopy

国家市场监督管理总局、中国国家标准化管理委员会, emission spectrum peak

GB/T 41073-2021 Surface chemical analysis—Electron spectroscopies—Minimum reporting requirements for peak fitting in X-ray photoelectron spectroscopy

Professional Standard - Nuclear Industry, emission spectrum peak

EJ/T 903.6-1994 Scintillator Performance Measurement Method Emission Spectroscopy