CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 600 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 1000 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 1000 nm
Close up of graph.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
This is the possibility to place a comment.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 600 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 600 nm
Close up of graph.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 1000 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 1000 nm
Close up of graph.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 380 nm
Close up of graph.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 600 nm
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 1000 nm
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 4.4E-04 | 5.1E-04 | ||
| KRISS | 6.3E-04 | 2.9E-03 | ||
| LNE-LNHB | -2.3E-04 | 6.6E-04 | ||
| MKEH | 1.7E-03 | 2.0E-03 | ||
| NIST | -8.1E-04 | 9.6E-04 | ||
| NMIJ AIST | 1.0E-03 | 8.2E-04 | ||
| NMISA | -6.9E-04 | 7.7E-03 | ||
| NPL | -1.5E-04 | 3.3E-04 | ||
| NRC | -3.5E-05 | 3.2E-04 | ||
| PTB | 7.3E-06 | 6.1E-04 | ||
| VNIIOFI | -5.9E-05 | 9.9E-04 | ||
| MSL | -2.1E-04 | 1.7E-04 | ||
| CENAM | 1.8E-03 | 3.8E-03 | ||
| INM | -2.3E-03 | 2.0E-03 | ||
| CMS/ITRI | -1.9E-03 | 2.2E-03 | ||
| NIM | -1.6E-03 | 1.4E-03 | ||
| NIMT | 2.9E-03 | 6.3E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 600 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 4.5E-04 | 5.6E-04 | ||
| KRISS | 3.5E-04 | 2.5E-03 | ||
| LNE-LNHB | -1.7E-04 | 2.1E-04 | ||
| MKEH | 2.7E-03 | 1.8E-03 | ||
| NIST | 3.2E-04 | 9.6E-04 | ||
| NMIJ AIST | 6.5E-06 | 5.4E-04 | ||
| NMISA | -1.1E-03 | 8.2E-03 | ||
| NPL | -2.3E-05 | 2.7E-04 | ||
| NRC | -8.9E-05 | 2.3E-04 | ||
| PTB | 2.0E-04 | 5.6E-04 | ||
| VNIIOFI | -6.1E-05 | 2.0E-03 | ||
| MSL | -8.8E-05 | 1.2E-04 | ||
| CENAM | 1.1E-03 | 3.9E-03 | ||
| INM | -7.9E-04 | 1.7E-03 | ||
| INMETRO | 2.6E-03 | 2.2E-03 | ||
| CMS/ITRI | -1.4E-03 | 2.1E-03 | ||
| NIM | -2.6E-04 | 1.5E-03 | ||
| NIMT | 3.0E-03 | 6.5E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 1000 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 7.3E-04 | 6.1E-04 | ||
| KRISS | 1.4E-05 | 2.5E-03 | ||
| LNE-LNHB | -2.1E-05 | 2.8E-04 | ||
| MKEH | 3.8E-03 | 2.8E-03 | ||
| NIST | 8.6E-04 | 9.6E-04 | ||
| NMIJ AIST | -2.9E-05 | 5.3E-04 | ||
| NMISA | 4.2E-03 | 4.3E-02 | ||
| NPL | -2.1E-05 | 2.7E-04 | ||
| NRC | -1.4E-04 | 2.6E-04 | ||
| PTB | 2.7E-04 | 5.8E-04 | ||
| VNIIOFI | 6.2E-04 | 2.3E-03 | ||
| MSL | -3.1E-04 | 1.3E-04 | ||
| INMETRO | 3.1E-03 | 2.2E-03 | ||
| CMS/ITRI | 2.4E-04 | 2.2E-03 | ||
| NIM | 2.8E-04 | 1.3E-03 | ||
| NIMT | 4.0E-03 | 6.3E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 2.8E-05 | 4.4E-04 | ||
| KRISS | 8.7E-04 | 8.6E-04 | ||
| LNE-LNHB | -6.1E-05 | 1.5E-04 | ||
| MKEH | 7.4E-05 | 1.1E-03 | ||
| NIST | 6.0E-04 | 8.6E-04 | ||
| NMIJ AIST | 7.8E-04 | 4.7E-04 | ||
| NMISA | -4.3E-05 | 1.0E-02 | ||
| NPL | -8.4E-05 | 4.9E-04 | ||
| NRC | -2.1E-04 | 1.7E-04 | ||
| PTB | -9.1E-05 | 1.0E-04 | ||
| VNIIOFI | -9.3E-06 | 2.3E-03 | ||
| MSL | 9.6E-06 | 1.6E-04 | ||
| CENAM | -7.5E-04 | 1.4E-03 | ||
| INM | -5.7E-04 | 1.4E-03 | ||
| CMS/ITRI | -8.0E-04 | 1.4E-03 | ||
| NIM | -5.5E-04 | 1.4E-03 | ||
| NIMT | 5.9E-04 | 2.9E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 600 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 6.7E-05 | 1.2E-04 | ||
| KRISS | -2.8E-05 | 3.3E-04 | ||
| LNE-LNHB | -2.8E-05 | 1.3E-04 | ||
| MKEH | 6.1E-05 | 3.2E-04 | ||
| NIST | 4.0E-05 | 1.2E-04 | ||
| NMIJ AIST | 1.2E-04 | 1.3E-04 | ||
| NMISA | -5.9E-04 | 9.2E-03 | ||
| NPL | -3.7E-06 | 4.1E-05 | ||
| NRC | -1.3E-06 | 4.1E-05 | ||
| PTB | -1.5E-05 | 3.5E-05 | ||
| VNIIOFI | 2.0E-04 | 2.0E-04 | ||
| MSL | -4.8E-05 | 3.5E-05 | ||
| CENAM | 2.6E-05 | 4.6E-04 | ||
| INM | 1.4E-05 | 6.2E-04 | ||
| INMETRO | 6.7E-05 | 2.6E-04 | ||
| CMS/ITRI | -2.5E-05 | 8.4E-04 | ||
| NIM | -5.1E-05 | 5.2E-04 | ||
| NIMT | 2.5E-04 | 3.2E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 1000 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 6.9E-05 | 1.0E-04 | ||
| KRISS | -8.3E-05 | 2.7E-04 | ||
| LNE-LNHB | -1.7E-06 | 1.3E-04 | ||
| MKEH | -9.2E-05 | 2.9E-04 | ||
| NIST | 7.5E-05 | 3.2E-05 | ||
| NMIJ AIST | 4.2E-05 | 1.1E-04 | ||
| NMISA | 4.6E-03 | 4.3E-02 | ||
| NPL | -5.4E-05 | 4.5E-05 | ||
| NRC | -2.6E-05 | 3.5E-05 | ||
| PTB | -4.3E-05 | 8.7E-05 | ||
| VNIIOFI | 1.2E-05 | 2.3E-04 | ||
| MSL | 2.0E-06 | 2.2E-05 | ||
| INMETRO | 1.3E-04 | 1.9E-04 | ||
| CMS/ITRI | -6.6E-05 | 1.1E-03 | ||
| NIM | -9.3E-05 | 3.8E-04 | ||
| NIMT | -4.7E-04 | 2.8E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 380 nm
CCPR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
SIM.PR-K6.2010
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report, combine with Monte Carlo calculations, see p. 7 of the SIM.PR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | -5.4E-08 | 1.0E-06 | ||
| KRISS | 2.1E-06 | 2.3E-06 | ||
| LNE-LNHB | 4.3E-07 | 9.8E-07 | ||
| MKEH | -7.4E-07 | 3.5E-06 | ||
| NIST | 1.4E-05 | 3.8E-05 | ||
| NMIJ AIST | 2.3E-06 | 6.8E-06 | ||
| NRC | -2.8E-07 | 8.7E-07 | ||
| PTB | -2.3E-07 | 8.4E-07 | ||
| MSL | 5.6E-07 | 5.6E-07 | ||
| CENAM | 6.3E-06 | 9.6E-05 | ||
| CMS/ITRI | -7.1E-06 | 1.3E-05 | ||
| NIM | -3.1E-06 | 1.3E-05 | ||
| NIMT | 2.7E-05 | 3.2E-03 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report and SIM.PR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 600 nm
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 5.7E-06 | 3.3E-06 | ||
| KRISS | 3.4E-06 | 7.7E-06 | ||
| LNE-LNHB | -1.0E-06 | 4.2E-06 | ||
| MKEH | 6.7E-06 | 7.8E-06 | ||
| NIST | 6.3E-06 | 1.9E-05 | ||
| NMIJ AIST | 8.0E-06 | 1.2E-05 | ||
| NPL | -1.2E-06 | 1.9E-06 | ||
| NRC | -1.1E-06 | 1.2E-06 | ||
| PTB | -1.8E-07 | 1.5E-06 | ||
| VNIIOFI | 6.0E-06 | 2.1E-05 | ||
| MSL | -9.0E-07 | 1.3E-06 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 1000 nm
The degree of equivalence of laboratory i relative to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty (k = 2) Ui, computed according to the description given on pp. 7 to 10 of the CCPR-K6.2010 Final Report.
| LABi | Di | Uneg,i | Upos,i | |
|---|---|---|---|---|
- |
- |
- |
||
| NMC A*STAR | 2.1E-05 | 1.3E-05 | ||
| KRISS | 2.0E-06 | 2.5E-05 | ||
| LNE-LNHB | 2.4E-06 | 2.0E-05 | ||
| MKEH | 1.7E-05 | 3.3E-05 | ||
| NIST | 4.1E-06 | 1.9E-05 | ||
| NMIJ AIST | -9.6E-06 | 7.0E-05 | ||
| NPL | -5.5E-06 | 6.1E-06 | ||
| NRC | 8.1E-07 | 5.2E-06 | ||
| PTB | -1.1E-05 | 1.1E-05 | ||
| VNIIOFI | -9.7E-06 | 3.0E-05 | ||
| MSL | 1.1E-06 | 3.9E-06 |
Results are here displayed only for 380 nm, 600 nm and 1000 nm. For data and graphs at other wavelengths, cf. CCPR-K6.2010 Final Report.
| Metrology area, Sub-field | Photometry and Radiometry, Properties of materials |
| Description | Spectral regular transmittance |
| Time of measurements | 2013 - 2014 |
| Status | Approved for equivalence |
| Final Reports of the comparisons | |
| References |
Appendix A: CCPR-K6.2010 Technical Protocol Appendix C: Temperature Coefficients Appendix B-2012: Report to Task Group May 2012 Appendix B-2013: Report to Task Group March 2013 Appendix E: Notes for participants Appendix G: Uncertainty Budgets
Appendix F: Changes by Participants during Pre-Draft A |
| Measurand | Spectral regular transmittance |
| Parameters | Wavelength from 380 nm to 1000 nm |
| Transfer device | Coloured glass filters with nominal transmittance of approximately 92%, 50%, 10%, 1.0% and 0.1% |
| Comparison type | Key Comparison |
| Consultative Committee | CCPR (Consultative Committee for Photometry and Radiometry) |
| Conducted by | CCPR (Consultative Committee for Photometry and Radiometry) |
| Comments | Results were published on 2 March 2017 Spectral regular transmittance |
| Pilot institute |
MSL
Measurement Standards Laboratory New Zealand |
| Contact person | Kathryn NIELD +64 4 931 3272 |
| Pilot laboratory | |
|---|---|
| MSL |
Measurement Standards Laboratory, New Zealand, APMP |
| KRISS |
Korea Research Institute of Standards and Science, Korea, Republic of, APMP |
| NIST |
National Institute of Standards and Technology, United States, SIM |
| NMC, A*STAR |
National Metrology Centre, Agency for Science, Technology and Research, Singapore, APMP |
| NMIJ AIST |
National Metrology Institute of Japan, Japan, APMP |
| NMISA |
National Metrology Institute of South Africa, South Africa, AFRIMETS |
| NPL |
National Physical Laboratory, United Kingdom, EURAMET |
| NRC |
National Research Council, Canada, SIM |
| PTB |
Physikalisch-Technische Bundesanstalt, Germany, EURAMET |
| VNIIOFI |
All-Russian Scientific Institute for Optical and Physical Measurements, Rosstandart, Russian Federation, COOMET |
This page proposes print-out on A4 paper (portrait) of the comparison details (best printed out using a black and white printer).
Please, select items to be printed out, then click on "OK" :
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 380 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 600 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 1000 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 380 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 600 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 1000 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 380 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
Linking SIM.PR-K6.2010 to CCPR-K6.2010
NIST (USA) and NRC (Canada) provides the link between the key comparison SIM.PR-K6.2010 and CCPR-K6.2010, having participated in both comparisons. The linking process is described at see p. 7 of the SIM.PR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 600 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 1000 nm
The key comparison reference value, xR, is embedded in the caclulation of the Degrees of Equivalence and is not explicitly expressed.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 380 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 600 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter A
WAVELENGTH 1000 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 380 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 600 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010 and SIM.PR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter C
WAVELENGTH 1000 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 380 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 600 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
CCPR-K6.2010
MEASURAND Spectral regular transmittance
FILTER Filter E
WAVELENGTH 1000 nm
Absolute transmission measurements and associated uncertainties of all participants are available in the Appendix D of the CCPR-K6.2010 Final Report.
