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本文(ASTM E766-2014 9508 Standard Practice for Calibrating the Magnification of a Scanning Electron Microscope《扫描电子显微镜放大倍率校准的标准方法》.pdf)为本站会员(jobexamine331)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM E766-2014 9508 Standard Practice for Calibrating the Magnification of a Scanning Electron Microscope《扫描电子显微镜放大倍率校准的标准方法》.pdf

1、Designation: E766 14Standard Practice forCalibrating the Magnification of a Scanning ElectronMicroscope1This standard is issued under the fixed designation E766; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revi

2、sion. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This practice covers general procedures necessary forthe calibration of magnification of scanning electron micro-scopes. The re

3、lationship between true magnification and indi-cated magnification is a complicated function of operatingconditions.2Therefore, this practice must be applied to each setof standard operating conditions to be used.1.2 The values stated in SI units are to be regarded asstandard. No other units of meas

4、urement are included in thisstandard.1.3 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory lim

5、itations prior to use.2. Referenced Documents2.1 ASTM Standards:3E7 Terminology Relating to MetallographyE29 Practice for Using Significant Digits in Test Data toDetermine Conformance with SpecificationsE177 Practice for Use of the Terms Precision and Bias inASTM Test MethodsE456 Terminology Relatin

6、g to Quality and StatisticsE691 Practice for Conducting an Interlaboratory Study toDetermine the Precision of a Test Method2.2 ISO Standard:ISO Guide 30: 1992 Terms and Definitions Used in Connec-tion with Reference Materials43. Terminology3.1 Definitions:3.1.1 For definitions of metallographic term

7、s used in thispractice see Terminology E7.3.1.2 The definitions related to statistical analysis of dateappearing in Practice E177, Terminology E456, and PracticeE691 shall be considered as appropriate to the terms used inthis practice.3.2 Definitions of Terms Specific to This Standard:3.2.1 calibrat

8、ionthe set of operations which establish,under specified conditions, the relationship between magnifi-cation values indicated by the SEM and the correspondingmagnification values determined by examination of a referencematerial.3.2.2 calibration methoda technical procedure for per-forming a calibrat

9、ion.3.2.3 certified reference materialreference material, ac-companied by a certificate, one or more of whose propertyvalues are certified by a procedure which establishes itstraceability to an accurate realization of the unit in which theproperty values are expressed, and for which each certifiedva

10、lue is accompanied by an uncertainty at a stated level ofconfidence (see ISO Guide 30:1992).3.2.4 pitchthe separation of two similar structures, mea-sured as the center to center or edge to edge distance.3.2.5 reference materiala material or substance one ormore of whose property values are sufficie

11、ntly homogeneous,stable, and well established to be used for the calibration of anapparatus, the assessment of a measurement method, or forassigning values to materials (see ISO Guide 30:1992).3.2.6 reference standarda reference material, generally ofthe highest metrological quality available, from

12、which mea-surements are derived.3.2.7 traceabilitythe property of a result of a measure-ment whereby it can be related to appropriate international/national standards through an unbroken chain of comparisons.3.2.8 verificationconfirmation by examination and provi-sion of evidence that specified requ

13、irements have been met.1This practice is under the jurisdiction of ASTM Committee E04 on Metallog-raphy and is the direct responsibility of Subcommittee E04.11 on X-Ray andElectron Metallography.Current edition approved Jan. 1, 2014. Published March 2014. Originallyapproved in 1980. Last previous ed

14、ition approved in 2008 as E766 98(2008)1.DOI: 10.1520/E0766-14.2See Annex A1.3For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page ont

15、he ASTM website.4Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.org.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States14. Significance and Use4.1 Proper use of th

16、is practice can yield calibrated magni-fications with precision of 5 % or better within a magnificationrange of from 10 to 50 000X.4.2 The use of calibration specimens traceable tointernational/national standards, such as NIST-SRM 484, withthis practice will yield magnifications accurate to better t

17、han5 % over the calibrated range of operating conditions.4.3 The accuracy of the calibrated magnifications, or dimen-sional measurements, will be poorer than the accuracy of thecalibration specimen used with this practice.4.4 For accuracy approaching that of the calibration speci-men this practice m

18、ust be applied with the identical operatingconditions (accelerating voltage, working distance and magni-fication) used to image the specimens of interest.4.5 It is incumbent upon each facility using this practice todefine the standard range of magnification and operatingconditions as well as the des

19、ired accuracy for which thispractice will be applied. The standard operating conditionsmust include those parameters which the operator can controlincluding: accelerating voltage, working distance,magnification, and imaging mode.5. Calibration Specimen5.1 The selection of calibration specimen(s) is

20、dependent onthe magnification range and the accuracy required.5.2 The use of reference standards, reference materials, orcertified reference materials traceable to international/nationalstandards (NIST, Gaithersburg, MD; NPL, Teddington, UK; orJNRLM, Tsukuba, Japan) calibration specimens is recom-me

21、nded. However, the use of internal or secondary referencematerials validated against reference standards or certifiedreference materials may be used with this practice.5.3 Where traceability to international or national standardsis not required, internal reference materials, verified as far astechni

22、cally practicable and economically feasible, are appro-priate as calibration specimens and may be used with thispractice.5.4 The most useful calibration specimens should have thefollowing characteristics:5.4.1 A series of patterns allowing calibration of the fullfield of view as well as fractional p

23、ortions of the field of viewover the range of standard magnifications. Suitable standardsallow for the pattern “pitch” to be measured,5.4.2 Pitch patterns allowing calibration in both X and Ywithout having to rotate the sample or the raster,5.4.3 Made from materials which provide good contrast forth

24、e various imaging modes, especially secondary electron andbackscatter electron imaging.5.4.4 Made of or coated with electrically conductive, elec-tron beam stable materials, and5.4.5 Made of materials which can be cleaned to removecontamination which occurs during normal use.5.5 Under typical use so

25、me contamination of the calibrationspecimen should be expected. When cleaning becomes neces-sary always follow the manufacturers instructions. Improperhandling, especially during cleaning, may invalidate the cali-bration specimens certificate of accuracy or traceability andrequire re-certification.

26、Care should be taken to prevent thestandard from sustaining mechanical damage which may alterthe standards structure.5.6 The facility using this practice shall have arrangementsfor the proper storage, handling, and use of the calibrationspecimen(s) which should include but is not limited to:5.6.1 St

27、orage in a desiccating cabinet or vacuum container,5.6.2 Using finger cots, clean room gloves or tweezers whenhandling, and5.6.3 Restricting its use to calibration only, unless it can beshown that the performance of the calibration specimen will beunaffected by such use.5.7 The facility using this p

28、ractice shall establish a schedulefor verification of the calibration specimen(s), where verifica-tion should include but is not limited to:5.7.1 Visual and microscopical inspection for contaminationand deterioration which may affect performance,5.7.2 Photomicrographic comparison (and documentation)

29、of the present state of the calibration specimen(s) to theoriginal state, and5.7.3 Validation or re-certification of calibration speci-men(s) distance intervals against other reference standards orcertified reference materials.6. Procedure6.1 Mounting of the calibration specimen.6.1.1 Visually inspe

30、ct the calibration specimen surface forcontamination and deterioration which may affect perfor-mance. Remove any dust or loose debris using extra care not todamage the specimen surface. One safe method is to use cleandry canned air to remove the loose surface debris.6.1.2 Ensure good electrical cont

31、act by following the SEMand calibration specimen manufacturers directions for mount-ing. In some instances the use of a conductive cement may berequired.6.1.3 Mount the calibration specimen rigidly and securely inthe SEM specimen stage to minimize any image degradationcaused by vibration.6.2 Evacuat

32、e the SEM chamber to the desired or standardworking vacuum.6.3 Turn OFF the tilt correction and scan rotation circuits.These circuits should be calibrated independently.6.4 Set the specimen tilt to 0 such that the surface of thecalibration specimen is perpendicular to the electron beam. Atechnique f

33、or checking specimen surface perpendicularity is toobserve the image focus as the specimen is translated twice thepicture width in the X or Y direction. The change of imagefocus should be minimal at a nominal magnification of 1000X.6.5 Adjust the accelerating voltage, working distance, andmagnificat

34、ion to the desired or standard operating conditions.6.6 The instrument should be allowed to fully stabilize atthe desired operating conditions. The time required will bepre-determined by the facility using this practice.E766 1426.7 Minimize residual magnetic hysteresis effects in thelenses by using

35、the degauss feature, cycling lens circuitsON-OFF-ON two or three times, or follow manufacturersrecommendations.6.8 Adjust the image of the calibration specimen on theviewing display.6.8.1 Bring the image of the specimen into sharp focus. Thesample working distance should be pre-selected to determine

36、magnification accuracy since different working distances mayhave different magnification errors. The specimen height (Zaxis) is then adjusted to attain focus on the viewing display. Ifthe SEM has a digital working distance display, the desiredvalue may be selected by adjusting the objective lens foc

37、us.6.8.2 Mechanically rotate the calibration specimen so themeasurement pattern(s) is parallel to the X or Y directions ofthe image display, or both. Never use the scan rotation circuitsto rotate the image since the circuit may introduce distortionsor magnification error, or both.6.8.3 Translate the

38、 calibration specimens so the fiducialmarkings of the measurement pattern(s) span 90 % of the fulldisplay of the viewing display using the SEM specimen stageX and Y controls. It is desirable to see both edges of eachfiducial marking in order to ascertain the line-center orrepeated pitch distance on

39、the calibration specimen6.9 Digital image calibration:6.9.1 Follow the manufacturers calibration instructions bychoosing two points or drawing a line between the centers oredges of the repeating structure on the calibration specimen.Enter the known distance into the SEM imaging software andsave a ca

40、libration file for each set of conditions as themanufacturer provides. The content of the calibration file is adistance per pixel value that varies with digital resolution aswell as microscope conditions.6.10 Analog Image Display Calibration Method:6.10.1 Measure with an appropriate ruler and record

41、 thepitch distance (D) between two of the fiducial markings (in mm6 0.5 mm) which are separated by the largest spacing in thefield of view. This step must be carried out for both the X andY directions of the image display.6.10.1.1 If the fiducial markings are lines the measurementmust be made perpen

42、dicular to the fiducial lines and from linecenter to line center or line edge to the corresponding line edge.6.10.1.2 With some calibration specimens, it may be neces-sary to rotate the specimen by 90 in order to determinemagnification in both the X andYdirections. If this is the case,follow 6.10 6.

43、10.2 before rotating the sample. Then follow6.8.2 and 6.8.3 to re-align the calibration specimen in the neworientation and repeat 6.10 and 6.11.6.10.2 Calculate the magnification by using 6.12.6.11 Recording CRT calibration method (for older SEMs).6.11.1 Photograph the field used in 6.10 with suffic

44、ientsignal to noise ratio and image contrast to allow for accuratemeasurements.6.11.2 Allow sufficient time for the photographic material tostabilize prior to measurement. This will minimize the effectsof dimensional changes in the film caused by temperature andhumidity.6.11.3 Measure and record the

45、 pitch distance (D) betweentwo of the fiducial markings (in mm 6 0.5 mm) which areseparated by the largest spacing in the photomicrograph for thebest precision.6.11.4 It is recommended that the fiducial markings used forthe pitch measurement be at least 10 mm from the photo edgesto minimize edge dis

46、tortion effects.6.11.5 If the measurement pattern consists of lines whichspan the length or width of the photomicrograph, then repeatthe measurement in 6.11.3 at least three times at locationsseparated by at least 3 mm so that the average spacing may bedetermined (see Fig. 1).6.11.6 Calculate the ma

47、gnification for each measurementusing 6.12. When multiple measurements have been madedetermine the mean and standard deviation for the set ofmeasurements.6.12 Calculation of Magnification:6.12.1 Calculate the true magnification (M) by dividing themeasured distance (D), usually in mm, by the accepted

48、,certified, or known spacing (CS), usually in micrometers andthen multiplying by the appropriate length units conversionfactor (CF). Conversion factors do not have to be used if thesame units in the calculation are used. For instance, if themagnified pitch distance is measured in mm, divide thatnumb

49、er by the actual distance in mm (that is, 10/0.01 mm =1000X).M = (D/CS)*CFUnits (D/CS) CFmillimetres/micrometre 1000millimetres/nanometre 1000000inches/micrometre 25400inches/nanometres 25400000NOTE 1A4 5 in. ( mm) photomicrograph of a reference material, a10 m pitch square grid imposed on a silicon wafer, used as a calibrationspecimen. This calibration specimen is not certified. This micrograph wasobtained using 3 kV accelerating voltage, 26 mm working distance, and amagnification setting of 700X. Measurements of D (in mm 6 0.5 mm) inboth the horizontal and

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