17.180.01 光学和光学测量综合 标准查询与下载

T/CSTM 00312-2021 色散镜的基本要求

本文件规定了色散镜的术语和定义、产品分类和标记、技术要求、薄膜材料、光谱和色散特性测试要求和产品包装和运输等。 本文件适用于超快激光中的介质或金属介质色散镜。

Minimum requirements for dispersion mirror

T/CATSI 09010-2021 光学真空腔体洁净度检测规范

第 3章　术语、定义和缩略语 为便于对标准的理解与执行，本章给出了光学真空腔体洁净度分压术语和定义和部分缩略语。 第4章 真空腔体污染物 本章主要给出了光学真空腔体污染物的类型，包括油脂、液滴、表面氧化物等。 第5章 洁净度标准 本章给出洁净级标准、超净级标准和危险级3种洁净度等级标准的要求。 第6章 检测准备 本章主要针对检测件、检测位置以及检测方法、检测仪器设备等主要环节提出相关要求。 第7章 检测与结果 本章主要给出检测原理、检测步骤、检测结果判定等要求。 附录A 附录给出了洁净度检测设备基本情况、设备参数及检测条件、腔A RGA质谱结果示例、腔B RGA质谱结果示例、腔B法拉第/倍增结果示例。

Specifications for testing the cleanliness of optical vacuum chambers

T/CSTM 00197-2021 石墨烯量子点 蓝光发射相对荧光量子产率测定 分子荧光光谱法

本文件规定了分子荧光光谱法测定石墨烯量子点蓝光发射相对荧光量子产率的术语和定义、测量原理、仪器、试剂和设备、样品的前处理、测量条件和步骤、数据处理和计算、不确定度来源分析和检测报告。 本文件适用于分子荧光光谱法表征石墨烯量子点蓝光发射相对荧光量子产率，石墨烯量子点的其他荧光发射带和其他纳米颗粒的发光性质表征（配合合适的荧光量子产率参考/标准物质）亦可参照执行。

Graphene quantum dots — Determination of relative fluorescence quantum efficiency for the blue emission — Molecular fluorescence spectroscopy

T/CSTM 00198-2021 石墨烯量子点 类酶活力测定 紫外/可见分光光度法

本文件规定了紫外/可见分光光度法测定石墨烯量子点类酶活力的术语和定义、测量原理、仪器、试剂和设备、样品的前处理、测量条件和步骤、数据处理和计算、不确定度来源分析和检测报告。 本文件适用于紫外/可见分光光度法表征石墨烯量子点的类酶活力，底物为邻苯二胺，底物浓度为9.74 mmol?L-1。其他纳米颗粒类酶活力的表征亦可参照执行。

Graphene quantum dots—Determination of enzyme-like activities — Ultraviolet-visible spectrophotometry

KS B ISO 7944-2021 光学和光学仪器 参考波长

Optics and optical instruments－Reference wavelengths

KS B ISO 15368-2021 光学和光学仪器 平面反射率和平面平行元件透射率的测量

Optics and optical instruments — Measurement of reflectance of plane surfaces and transmittance of plane parallel elements

GSO ISO 19962:2021 光学和光子学 平面平行光学元件积分散射的光谱测量方法

This document specifies procedures for determining the spectroscopic forward scattering characteristics of coated and uncoated optical surfaces over a specified wavelength range between 350 nm and 850 nm using a double-beam spectrophotometer with an integrating sphere. This document is also applicable to the forward scattering properties at a single wavelength. This document is applicable to spectroscopic forward scattering measurements with collection angles larger than 2,7 degrees. ISO 13696 provides a measurement method for smaller collection angles.

Optics and photonics — Spectroscopic measurement methods for integrated scattering by plane parallel optical elements

ASTM G197-14(2021) 参考太阳光谱分布标准表:20°倾斜和垂直表面上的直接和漫反射

1.1 This table provides terrestrial solar spectral irradiance distributions that may be employed as weighting functions to (1) calculate the broadband solar or light transmittance of fenestration from its spectral properties; or (2) evaluate the performance of building-integrated technologies such as photovoltaic electricity generators. Most of these systems are installed on vertical walls, but some are also installed on pitched roofs or on other tilted structures, such as sunspaces. Glazing transmittance calculations or measurements require information on both the direct and diffuse components of irradiance. The table provides separate information for direct and diffuse irradiance, and for two different tilt angles, 20° and 90° relative to the horizontal. All distributions are provided at 2002 wavelengths within the spectral range 280–4000 nm. The data contained in this table reflect reference spectra with uniform wavelength interval (0.5 nanometer (nm) below 400 nm, 1 nm between 400 and 1700 nm, an intermediate wavelength at 1702 nm, and 5 nm intervals from 1705 to 4000 nm). The data table represents reasonable cloudless atmospheric conditions favorable for the computerized simulation, comparative rating, or experimental testing of fenestration systems. 1.2 The data contained in this table were generated using the SMARTS version 2.9.2 atmospheric transmission model developed by Gueymard (1, 2). 1.3 The selection of the SMARTS radiative model to generate the spectral distributions is chosen for compatibility with previous standards (ASTM G173 and G177). The atmospheric and climatic conditions are identical to those in ASTM G173. The environmental conditions are also identical, with only one exception (see sections 4.3 and X1.2). 1.4 The table defines four solar spectral irradiance distributions: 1.4.1 Separate direct and diffuse solar spectral irradiance incident on a sun-facing, 20° tilted surface in the wavelength region from 280–4000 nm for air mass 1.5, at sea level. 1 This table is under the jurisdiction of ASTM Committee G03 on Weathering and Durability and is the direct responsibility of Subcommittee G03.09 on Radiometry. Current edition approved July 1, 2021. Published July 2021. Originally approved in 2008. Last previous edition approved in 2014 as G197 – 14. DOI: 10.1520/ G0197-14R21. 2 The boldface numbers in parentheses refer to the list of references at the end of this standard. Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. 1 1.4.2 Separate direct and diffuse solar spectral irradiance incident on a sun-facing, 90° (vertical) tilted surface in the wavelength region from 280–4000 nm for air mass 1.5, at sea level. 1.5 The diffuse spectral distribution on a vertical surface facing away from the sun (i.e., shaded), or at any prescribed azimuth away from the sun, may be computed using the model to obtain representative results (i.e., results that fall within an acceptable range of variance). 1.6 The climatic, atmospheric, and geometric parameters selected reflect the conditions to provide a realistic set of spectral distributions appropriate for building applications under very clear-sky conditions, representative of nearmaximum solar heat gains in buildings. 1.7 A wide variety of orientations or local environmental conditions is possible for exposed surfaces. The availability of the SMARTS model (as an adjunct to this standard) used to generate the standard spectra allows users to evaluate spectral differences relative to the spectra specified here. 1.8 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Table for Reference Solar Spectral Distributions: Direct and Diffuse on 20° Tilted and Vertical Surfaces

GSO ASTM E1880:2021 使用 SIMS 进行组织冷冻切片分析的标准实施规程

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Standard Practice for Tissue Cryosection Analysis with SIMS

OENORM EN 4861-2021 航空航天系列 数字图像相关测量运动场的计量评定规程

Aerospace series - Metrological assessment procedure for kinematic fields measured by digital image correlation

T/MZMS 0002-2021 印制电路行业AOI（自动光学检测）设备校准规范

5.1　偏差 印制电路行业AOI（自动光学检测）设备的线宽识别能力，即其相对不同等级线宽标准板的线宽识别检测值，与标准板线宽宽度之间的差值，不超过±10%。 5.2　镜头畸变度 文字印制电路行业AOI（自动光学检测）设备对放置在参考平面上不同位置的标准板进行检测，并求出每个等级线宽在不同位置之间的最大差值，即为镜头畸变度。

Calibration Specifications for AOI (Automatic Optical Inspection) Equipment in Printed Circuit Industry

BS ISO 15368:2021 光学和光子学 平面反射率和平面平行元件透射率的测量

Optics and photonics. Measurement of reflectance of plane surfaces and transmittance of plane parallel elements

SN EN 4861-2021 航空航天系列 数字图像相关测量运动场的计量评定规程

Aerospace series - Metrological assessment procedure for kinematic fields measured by digital image correlation

ISO 15368:2021 光学和光学仪器——平面反射系数和平面平行元件透射率的测量

This document provides rules for the measurement of the spectral reflectance of plane surfaces and the spectral transmittance of plane parallel elements using spectrophotometers. This document only applies to measurements of the regular transmittance and the regular reflectance; it does not apply to those of the diffuse transmittance and the diffuse reflectance. This document is applicable to test samples, which are coated or uncoated optical components without optical power.

Optics and optical instruments — Measurement of reflectance of plane surfaces and transmittance of plane parallel elements

T/CSEE 0227-2021 超声、紫外、红外联合检测装置技术规范

本文件规定了超声、紫外、红外联合检测装置（以下简称联合检测装置）的结构组成与原理、工 作条件、技术要求、检验规则，以及标志、包装、运输、贮存。 本文件适用于联合检测装置的设计、生产和采购。

Ultrasonic, ultraviolet and infrared joint detection device technical specification

UNI EN 4861-2021 航空航天系列 数字图像相关测量运动场的计量评定规程

Aerospace series - Metrological assessment procedure for kinematic fields measured by digital image correlation

DIN EN 4861:2021 航空航天系列-通过数字图像相关测量的运动场的计量评估程序; 德文和英文版 EN 4861-2020

This document specifies the monitoring of mechanical tests and inspections performed both at the material (coupon) and at the structural scale by the implementation of kinematic field measurements by digital image correlation. This document describes an in situ method for evaluat

Aerospace series - Metrological assessment procedure for kinematic fields measured by digital image correlation; German and English version EN 4861:2020

T/CI 001-2022 卫星对地观测下的碳指标监测体系

依据GB/T 32453-2015《卫星对地观测数据产品分类分级规则》第5章对地观测数据分类分级原则，结合碳中和背景下的遥感碳指标监测需求，制定以下体系分级原则： （1）科学性：体系划分和级别的界定应符合碳源汇的分类科学体系，并能反应卫星遥感数据应用对类别和级别划分的客观需求，符合已经发布的国家标准和国际标准。分级结构清晰，能反映不同级别产品之间的内在特征与联系。 （2）可扩展性：体系制定首先考虑目前使用广泛、可标准化程度高的主流遥感监测产品，同时还应考虑未来一定时期出现的新类别、级别可能性，应具备可扩展性； （3）实用性：分级设置应简洁明确，易于操作并为各类用户所接收和使用。 （4）兼容性：应能够与现行使用的国际温室气体排放分类、国内外遥感卫星数据分级规则建立明确的映射关系，能方便地与内国外相关分类分级方案接轨。 卫星对地观测下的碳指标监测体系分为二级。根据碳中和核算要素分为净碳排放监测指标、碳源监测指标和碳汇监测指标三个一级指标。在一级指标的基础上，依据碳源汇目标地物或要素能够利用遥感卫星对地观测技术手段监测获得原则进行二级指标的划分。 其中，净碳排放监测指标主要是碳收支计算后空气中的温室气体，将政府间气候变化专门委员会〔2006〕《IPCC国家温室气体清单指南》中提出的七种主要温室气体作为其二级监测指标；碳源监测指标主要是人类生产生活产生的碳排放指标，基于发改办气候〔2011〕1041号《省级温室气体清单编制指南（试行）》中表1.5罗列的主要碳排放部门和行业，立足监测体系分级原则，建立碳源监测指标的基本架构。

Carbon index monitoring system based on satellite earth observation

DS/EN 4861:2020 航天系列—数字图像相关测量运动场的计量评估程序

Aerospace series – Metrological assessment procedure for kinematic fields measured by digital image correlation

BS EN 4861:2020 航空航天系列 通过数字图像相关测量的运动场的计量评估程序

Aerospace series. Metrological assessment procedure for kinematic fields measured by digital image correlation