Components
4
Twig Components
12
Render Count
21
ms
Render Time
168.0
MiB
Memory Usage
Components
| Name | Metadata | Render Count | Render Time |
|---|---|---|---|
| ProductState |
"App\Twig\Components\ProductState"components/ProductState.html.twig |
5 | 4.23ms |
| ProductMostRecent |
"App\Twig\Components\ProductMostRecent"components/ProductMostRecent.html.twig |
5 | 4.79ms |
| ProductType |
"App\Twig\Components\ProductType"components/ProductType.html.twig |
1 | 0.77ms |
| ProductCard |
"App\Twig\Components\ProductCard"components/ProductCard.html.twig |
1 | 12.62ms |
Render calls
| ProductState | App\Twig\Components\ProductState | 168.0 MiB | 3.32 ms | |
|---|---|---|---|---|
| Input props | [ "product" => App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector. 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| Component | App\Twig\Components\ProductState {#92939 +product: App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector. 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| Input props | [ "product" => App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector. 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| Component | App\Twig\Components\ProductType {#93108 +product: App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector. 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| ProductMostRecent | App\Twig\Components\ProductMostRecent | 168.0 MiB | 1.74 ms | |
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| Input props | [ "product" => App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector. 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| Component | App\Twig\Components\ProductMostRecent {#93175 +product: App\Entity\Product\Product {#7311 #id: 9818 #code: "IEEE00003003" #attributes: Doctrine\ORM\PersistentCollection {#7701 …} #variants: Doctrine\ORM\PersistentCollection {#7744 …} #options: Doctrine\ORM\PersistentCollection {#7916 …} #associations: Doctrine\ORM\PersistentCollection {#7900 …} #createdAt: DateTime @1751038582 {#7274 : 2025-06-27 17:36:22.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1754607004 {#7322 : 2025-08-08 00:50:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#7922 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#7921 #locale: "en_US" #translatable: App\Entity\Product\Product {#7311} #id: 34281 #name: "IEEE/ANSI N42.14:1999" #slug: "ieee-ansi-n42-14-1999-ieee00003003-241470" #description: """ New IEEE Standard - Active.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements.<br />\n A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. 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""" #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard for Calibration and Use of Germanium Spectrometers for the Measurement of Gamma-Ray Emission Rates of Radionuclides" -notes: "Active" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#7534 …} #channels: Doctrine\ORM\PersistentCollection {#7628 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#7613 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#7645 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#7321 …} -apiLastModifiedAt: DateTime @1754517600 {#7317 : 2025-08-07 00:00:00.0 Europe/Paris (+02:00) } -lastUpdatedAt: DateTime @1747000800 {#7292 : 2025-05-12 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @928188000 {#7318 : 1999-06-01 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: DateTime @928188000 {#7316 : 1999-06-01 00:00:00.0 Europe/Paris (+02:00) } -edition: null -coreDocument: "N42.14" -bookCollection: "" -pageCount: 76 -documents: Doctrine\ORM\PersistentCollection {#7465 …} -favorites: Doctrine\ORM\PersistentCollection {#7500 …} } +label: "Historical" +icon: "historical" -mostRecentAttributeCode: "most_recent" -localeContext: Sylius\Component\Locale\Context\CompositeLocaleContext {#1833 …} } |
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Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay<br />\n The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. 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| Input props | [ "product" => App\Entity\Product\Product {#100193 #id: 9817 #code: "IEEE00003002" #attributes: Doctrine\ORM\PersistentCollection {#100184 …} #variants: Doctrine\ORM\PersistentCollection {#100178 …} #options: Doctrine\ORM\PersistentCollection {#100179 …} #associations: Doctrine\ORM\PersistentCollection {#100181 …} #createdAt: DateTime @1751038581 {#100123 : 2025-06-27 17:36:21.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#100122 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#100196 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#100475 #locale: "en_US" #translatable: App\Entity\Product\Product {#100193} #id: 34277 #name: "IEEE/ANSI N42.14:1978 (R1985)" #slug: "ieee-ansi-n42-14-1978-r1985-ieee00003002-241469" #description: """ New IEEE Standard - Superseded.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full energy peak efficiency with calibrated sources are given. Performance tests that ascertain the proper functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spectral-analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, decay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n This standard establishes methods for calibration and usage of germanium detectors for the measurement of gamma-ray emission rates of radionuclides. It covers the energy and full energy peak efficiency calibration as well as the determination of gamma-ray energies in the 0.06 to 2 MeV energy region and is designed to yield gamma-ray emission rates with an uncertainty of f 3 percent.1 This standard applies primarily to measurements which do not involve overlapping peaks, and in which peak to continuum considerations are not important.<br />\n The purpose of this standard is to provide a standardized basis for the calibration and usage of germanium detectors for measurement of gamma-ray emission rates of radionuclides. This standard is intended for use by knowledgeable persons who are responsible for the development of correct procedures for the calibration and usage of germanium detectors. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Calibration and Usage of Germanium Detectors for Measurement of Gamma-Ray Emission of Radionuclides" -notes: "Superseded" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#100194 …} #channels: Doctrine\ORM\PersistentCollection {#100188 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#100187 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#100190 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#100189 …} -apiLastModifiedAt: DateTime @1743289200 {#100121 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1578006000 {#100120 : 2020-01-03 00:00:00.0 Europe/Paris (+01:00) } -author: "" -publishedAt: DateTime @274572000 {#100114 : 1978-09-14 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: DateTime @483660000 {#100119 : 1985-04-30 00:00:00.0 Europe/Paris (+02:00) } -canceledAt: null -edition: null -coreDocument: "N42.14" -bookCollection: "" -pageCount: 9 -documents: Doctrine\ORM\PersistentCollection {#100171 …} -favorites: Doctrine\ORM\PersistentCollection {#100201 …} } "showFullLabel" => "true" ] |
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| Attributes | [ "showFullLabel" => "true" ] |
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| ProductMostRecent | App\Twig\Components\ProductMostRecent | 168.0 MiB | 0.63 ms | |
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| Input props | [ "product" => App\Entity\Product\Product {#100193 #id: 9817 #code: "IEEE00003002" #attributes: Doctrine\ORM\PersistentCollection {#100184 …} #variants: Doctrine\ORM\PersistentCollection {#100178 …} #options: Doctrine\ORM\PersistentCollection {#100179 …} #associations: Doctrine\ORM\PersistentCollection {#100181 …} #createdAt: DateTime @1751038581 {#100123 : 2025-06-27 17:36:21.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#100122 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#100196 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#100475 #locale: "en_US" #translatable: App\Entity\Product\Product {#100193} #id: 34277 #name: "IEEE/ANSI N42.14:1978 (R1985)" #slug: "ieee-ansi-n42-14-1978-r1985-ieee00003002-241469" #description: """ New IEEE Standard - Superseded.<br />\n Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full energy peak efficiency with calibrated sources are given. Performance tests that ascertain the proper functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spectral-analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, decay corrections, and the conversion of gamma-ray rates to decay rates.<br />\n \t\t\t\t<br />\n This standard establishes methods for calibration and usage of germanium detectors for the measurement of gamma-ray emission rates of radionuclides. It covers the energy and full energy peak efficiency calibration as well as the determination of gamma-ray energies in the 0.06 to 2 MeV energy region and is designed to yield gamma-ray emission rates with an uncertainty of f 3 percent.1 This standard applies primarily to measurements which do not involve overlapping peaks, and in which peak to continuum considerations are not important.<br />\n The purpose of this standard is to provide a standardized basis for the calibration and usage of germanium detectors for measurement of gamma-ray emission rates of radionuclides. This standard is intended for use by knowledgeable persons who are responsible for the development of correct procedures for the calibration and usage of germanium detectors. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Calibration and Usage of Germanium Detectors for Measurement of Gamma-Ray Emission of Radionuclides" -notes: "Superseded" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#100194 …} #channels: Doctrine\ORM\PersistentCollection {#100188 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#100187 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#100190 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#100189 …} -apiLastModifiedAt: DateTime @1743289200 {#100121 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1578006000 {#100120 : 2020-01-03 00:00:00.0 Europe/Paris (+01:00) } -author: "" -publishedAt: DateTime @274572000 {#100114 : 1978-09-14 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: DateTime @483660000 {#100119 : 1985-04-30 00:00:00.0 Europe/Paris (+02:00) } -canceledAt: null -edition: null -coreDocument: "N42.14" -bookCollection: "" -pageCount: 9 -documents: Doctrine\ORM\PersistentCollection {#100171 …} -favorites: Doctrine\ORM\PersistentCollection {#100201 …} } ] |
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| Input props | [ "product" => App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } "layout" => "vertical" "showPrice" => true "showStatusBadges" => true "additionalClasses" => "product__teaser--with-grey-border" "hasStretchedLink" => true "hoverType" => "shadow" "linkLabel" => "See more" ] |
|||
| Attributes | [] |
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| Component | App\Twig\Components\ProductCard {#122023 +product: App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } +layout: "vertical" +showPrice: true +showStatusBadges: true +additionalClasses: "product__teaser--with-grey-border" +linkLabel: "See more" +imageFilter: "product_thumbnail_teaser" +hasStretchedLink: true +backgroundColor: "white" +hoverType: "shadow" } |
|||
| ProductState | App\Twig\Components\ProductState | 168.0 MiB | 0.28 ms | |
|---|---|---|---|---|
| Input props | [ "product" => App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } ] |
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| Attributes | [ "showFullLabel" => false ] |
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| Component | App\Twig\Components\ProductState {#122064 +product: App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } +appearance: "state-withdrawn" +labels: [ "Withdrawn" ] -stateAttributeCode: "state" -localeContext: Sylius\Component\Locale\Context\CompositeLocaleContext {#1833 …} } |
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| ProductMostRecent | App\Twig\Components\ProductMostRecent | 168.0 MiB | 1.03 ms | |
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| Input props | [ "product" => App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } ] |
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| Attributes | [] |
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| Component | App\Twig\Components\ProductMostRecent {#122140 +product: App\Entity\Product\Product {#121950 #id: 9830 #code: "IEEE00003016" #attributes: Doctrine\ORM\PersistentCollection {#121955 …} #variants: Doctrine\ORM\PersistentCollection {#121953 …} #options: Doctrine\ORM\PersistentCollection {#121948 …} #associations: Doctrine\ORM\PersistentCollection {#121951 …} #createdAt: DateTime @1751038593 {#121944 : 2025-06-27 17:36:33.0 Europe/Paris (+02:00) } #updatedAt: DateTime @1753969444 {#121979 : 2025-07-31 15:44:04.0 Europe/Paris (+02:00) } #enabled: true #translations: Doctrine\ORM\PersistentCollection {#121966 …} #translationsCache: [ "en_US" => App\Entity\Product\ProductTranslation {#122062 #locale: "en_US" #translatable: App\Entity\Product\Product {#121950} #id: 34329 #name: "IEEE/ANSI N42.23:1996" #slug: "ieee-ansi-n42-23-1996-ieee00003016-241482" #description: """ New IEEE Standard - Inactive-Withdrawn.<br />\n A framework that can be used to create a national or an organizational NIST-traceable measurement quality assurance (MQA) program that will optimize the quality of radioassays performed by service laboratories is presented. This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay laboratory community, i.e., bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, nuclear power radiochemistry, and other areas involved in radioassays.<br />\n \t\t\t\t<br />\n This standard serves as a guide for MQA programs developed for specialized sectors of the radioassay community, that is bioassay, routine environmental monitoring, environmental restoration and waste management, radiopharmaceuticals, and nuclear power chemistry. The standard also provides the means for establishing the more limited objectives that govern day-to-day operations of an individual laboratory, including mandated protocols, recommendations, and information to implement and maintain a radioassay QA program. The overall utility of radioassay data results from the combination of defensible and traceable measurements, preceded by careful planning to determine data quality objectives (DQO). This standard addresses only those aspects of the user's program that deal with measurement-related issues. Guidance on the use of DQOs is provided in annex . This standard addresses a)The operational framework of a national measurement assurance program b)The roles of the accrediting organization; the National Institute of Standards and Technology (NIST); and the reference, monitoring, and service laboratories<br />\n c)The protocol for the preparation and distribution of test media by the monitoring or reference laboratories<br />\n d)The bases for calculating the required accuracy and precision parameters of radioassay measurements<br />\n e)The protocol for the evaluation and reporting of test results<br />\n f)The protocol for the assessment and evaluation of test results and reporting assessment findings by the accrediting organization<br />\n g)Guidance for determining the decision limit concentration and the a priori minimum detectable concentration for each radionuclide (see annex )<br />\n h)The requirements for reporting radioassay results by service laboratories to the customer<br />\n i)Eleven key elements of a viable QA program applicable to the service, monitoring, and reference laboratories<br />\n j)The QA and QC programs for the service, monitoring, and reference laboratories<br />\n Since this is an umbrella MQA standard, no guidance or requirements have been established for the minimum performance criteria of precision, accuracy, or detection limits applicable to the routine operation of a radioassay laboratory. However, this standard requires that the service laboratory and its client (either from within the same company or governmental organization, or external) establish precision, bias, detection limit, and other quality performance specifications for each radionuclide within a preprocessing agreement or contract. These quality performance specifications shall be related to the data quality objectives requiring the radioassays. For radioassays requiring a quality measurement assurance program, this standard requires the use of a third-party monitoring laboratory to evaluate the ongoing capability of the service laboratory to meet pre-established, contractual performance specifications. If agreed by the client and service laboratory, the internal QA program of the service laboratory may function as a monitoring laboratory as long as the requirements for the monitoring laboratory as established in this standard are met. This standard has outlined the minimum requirements necessary to maintain a viable measurement assurance program by a radioassay laboratory. As outlined in this standard, the testing of the reference, monitoring, and service laboratories to assay radionuclides specified in the various testing categories properly is for accreditation purposes only. This testing program has been developed to ensure that all radioassay laboratories have, at a minimum, radiation measurement instrumentation, representing each radioactive emission type, that has been calibrated with radioactive materials traceable to NIST. This testing is considered a minimum effort in the accreditation process. As stated previously, it is the responsibility of a person or organization requiring radioassays to incorporate detailed performance specifications for each radionuclide and matrix within a contract for the service laboratory. A monitoring laboratory shall be utilized to evaluate the compliance by the service laboratory with the performance specifications. Several annexes have been developed to provide additional background information, clarifications, and, in some cases, requirements of the standard. Annex is considered part of this standard and, as such, the requirements specified shall be followed. Annexes , , and provide information and guidance to support the general concepts and recommendations outlined in this standard.<br />\n The purpose of this standard is to provide Guidance for a national program for testing, accrediting, and monitoring of all types of radioassay laboratoriesGuidance for the minimum requirements necessary to maintain a viable service laboratory for the measurement of low and intermediate levels of radioactivity in all types of test mediaCriteria for the establishment of monitoring and reference laboratoriesOperational and QA criteria for service, monitoring, and reference radioassay laboratoriesGuidance for the National Institute of Standards and Technology (NIST) and an accrediting organization to implement this standard This standard does not address quality assurance for the collection of samples requiring radioassays. It does not address directly the quality assurance necessary for radon-in-air measurements, although the principles provided in this standard should form the basis of QA programs for those laboratories that perform radioactivity measurements as part of their radon analyses. """ #metaKeywords: null #metaDescription: null #shortDescription: "American National Standard Measurement and Associated Instrumentation Quality Assurance for Radioassay Laboratories" -notes: "Inactive-Withdrawn" } ] #currentLocale: "en_US" #currentTranslation: null #fallbackLocale: "en_US" #variantSelectionMethod: "match" #productTaxons: Doctrine\ORM\PersistentCollection {#121964 …} #channels: Doctrine\ORM\PersistentCollection {#121957 …} #mainTaxon: Proxies\__CG__\App\Entity\Taxonomy\Taxon {#7309 …} #reviews: Doctrine\ORM\PersistentCollection {#121961 …} #averageRating: 0.0 #images: Doctrine\ORM\PersistentCollection {#121959 …} -supplier: Proxies\__CG__\App\Entity\Supplier\Supplier {#7324 …} -subscriptionCollections: Doctrine\ORM\PersistentCollection {#121971 …} -apiLastModifiedAt: DateTime @1743289200 {#121930 : 2025-03-30 00:00:00.0 Europe/Paris (+01:00) } -lastUpdatedAt: DateTime @1602021600 {#121978 : 2020-10-07 00:00:00.0 Europe/Paris (+02:00) } -author: "" -publishedAt: DateTime @864684000 {#121937 : 1997-05-27 00:00:00.0 Europe/Paris (+02:00) } -releasedAt: null -confirmedAt: null -canceledAt: null -edition: null -coreDocument: "N42.23" -bookCollection: "" -pageCount: 64 -documents: Doctrine\ORM\PersistentCollection {#121970 …} -favorites: Doctrine\ORM\PersistentCollection {#121968 …} } +label: "Most Recent" +icon: "check-xs" -mostRecentAttributeCode: "most_recent" -localeContext: Sylius\Component\Locale\Context\CompositeLocaleContext {#1833 …} } |
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