CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 250 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 260 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 270 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 280 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 290 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 320 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 340 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 360 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 380 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 400 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 450 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 555 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 600 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 700 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 800 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 900 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1000 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1100 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1700 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2000 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2200 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2400 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 250 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -3.78 | 5.02 | ||
KRISS | 0.30 | 1.95 | ||
LNE-LCM/CNAM | 4.64 | 4.57 | ||
NIM | 0.55 | 1.44 | ||
NIST | 0.10 | 1.48 | ||
NMC, A*STAR | -1.12 | 1.86 | ||
NMIA | -1.61 | 5.68 | ||
NMIJ | -0.19 | 2.68 | ||
NPL | -1.29 | 1.79 | ||
NRC | 0.25 | 2.93 | ||
PTB | 1.14 | 1.40 | ||
VNIIOFI | -0.42 | 0.91 | ||
BelGIM | -2.07 | 9.49 | ||
NSC IM | -9.32 | 4.54 | ||
UME | -1.96 | 3.28 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 260 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -4.77 | 4.86 | ||
KRISS | 0.41 | 1.74 | ||
LNE-LCM/CNAM | 1.20 | 1.97 | ||
NIM | 0.27 | 1.24 | ||
NIST | 0.00 | 1.44 | ||
NMC, A*STAR | -1.01 | 1.59 | ||
NMIA | -2.32 | 4.72 | ||
NMIJ | 0.34 | 2.48 | ||
NPL | -2.05 | 1.86 | ||
NRC | 0.54 | 2.38 | ||
PTB | 1.32 | 1.27 | ||
VNIIOFI | -0.29 | 0.81 | ||
BelGIM | -1.31 | 4.71 | ||
NSC IM | -8.16 | 4.36 | ||
UME | -1.82 | 3.17 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 270 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -5.42 | 4.83 | ||
KRISS | 0.42 | 1.63 | ||
LNE-LCM/CNAM | 0.42 | 1.55 | ||
NIM | 0.03 | 1.16 | ||
NIST | -0.40 | 1.40 | ||
NMC, A*STAR | -0.47 | 1.43 | ||
NMIA | -2.37 | 4.11 | ||
NMIJ | 0.60 | 2.39 | ||
NPL | -2.08 | 1.97 | ||
NRC | 0.67 | 1.64 | ||
PTB | 1.30 | 1.19 | ||
VNIIOFI | -0.25 | 0.76 | ||
BelGIM | -1.65 | 5.10 | ||
NSC IM | -7.17 | 4.26 | ||
UME | -1.74 | 3.14 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 280 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -4.89 | 4.43 | ||
KRISS | 0.11 | 1.50 | ||
LNE-LCM/CNAM | 0.45 | 1.23 | ||
NIM | 0.16 | 1.13 | ||
NIST | -0.07 | 1.36 | ||
NMC, A*STAR | -0.76 | 1.50 | ||
NMIA | -1.93 | 3.75 | ||
NMIJ | 0.61 | 2.32 | ||
NPL | -2.15 | 1.85 | ||
NRC | 0.48 | 1.49 | ||
PTB | 1.05 | 1.15 | ||
VNIIOFI | -0.12 | 0.72 | ||
BelGIM | 0.56 | 4.68 | ||
NSC IM | -6.54 | 3.28 | ||
UME | -1.56 | 3.12 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 290 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -3.83 | 4.41 | ||
KRISS | 0.02 | 1.45 | ||
LNE-LCM/CNAM | 0.34 | 1.11 | ||
NIM | 0.14 | 1.03 | ||
NIST | 0.10 | 1.32 | ||
NMC, A*STAR | -0.79 | 1.29 | ||
NMIA | -2.09 | 3.55 | ||
NMIJ | 0.44 | 2.26 | ||
NPL | -1.58 | 1.65 | ||
NRC | 0.55 | 1.43 | ||
PTB | 1.11 | 1.11 | ||
VNIIOFI | -0.24 | 0.68 | ||
BelGIM | -0.18 | 2.26 | ||
NSC IM | -6.17 | 2.33 | ||
UME | -1.62 | 3.09 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -0.88 | 4.96 | ||
KRISS | -0.11 | 1.36 | ||
LNE-LCM/CNAM | 0.39 | 1.04 | ||
NIM | 0.01 | 0.94 | ||
NIST | 0.24 | 1.27 | ||
NMC, A*STAR | -0.72 | 1.24 | ||
NMIA | -2.21 | 3.30 | ||
NMIJ | 0.56 | 2.20 | ||
NPL | -1.42 | 1.60 | ||
NRC | 0.48 | 1.36 | ||
PTB | 0.95 | 1.07 | ||
VNIIOFI | -0.36 | 0.66 | ||
BelGIM | -0.73 | 1.98 | ||
NSC IM | -6.12 | 1.42 | ||
UME | -1.66 | 2.7 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 320 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.51 | 3.88 | ||
KRISS | -0.32 | 1.21 | ||
LNE-LCM/CNAM | 0.84 | 0.93 | ||
NIM | -0.07 | 0.90 | ||
NIST | 0.19 | 1.18 | ||
NMC, A*STAR | -0.82 | 1.16 | ||
NMIA | -2.42 | 2.91 | ||
NMIJ | 0.42 | 2.10 | ||
NPL | -1.88 | 1.66 | ||
NRC | 0.27 | 1.22 | ||
PTB | 0.81 | 1.01 | ||
VNIIOFI | -0.19 | 0.62 | ||
BelGIM | -0.5 | 1.75 | ||
NSC IM | -6.7 | 1.36 | ||
UME | -1.41 | 2.66 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 340 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.75 | 3.64 | ||
KRISS | -0.30 | 1.10 | ||
LNE-LCM/CNAM | 0.75 | 0.87 | ||
NIM | 0.08 | 0.82 | ||
NIST | 0.01 | 1.09 | ||
NMC, A*STAR | -0.64 | 1.05 | ||
NMIA | -2.50 | 2.58 | ||
NMIJ | 0.35 | 2.01 | ||
NPL | -1.69 | 1.55 | ||
NRC | 0.40 | 1.16 | ||
PTB | 0.86 | 0.97 | ||
VNIIOFI | -0.32 | 0.60 | ||
BelGIM | -0.59 | 1.69 | ||
NSC IM | -5.53 | 1.43 | ||
UME | -1.54 | 2.64 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 360 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.86 | 3.42 | ||
KRISS | -0.23 | 1.06 | ||
LNE-LCM/CNAM | 0.79 | 0.82 | ||
NIM | 0.00 | 0.79 | ||
NIST | -0.18 | 1.02 | ||
NMC, A*STAR | -0.57 | 0.97 | ||
NMIA | -2.34 | 2.29 | ||
NMIJ | 0.29 | 1.93 | ||
NPL | -1.50 | 1.52 | ||
NRC | 0.48 | 1.10 | ||
PTB | 0.88 | 0.94 | ||
VNIIOFI | -0.35 | 0.57 | ||
BelGIM | -0.86 | 1.61 | ||
NSC IM | -4.60 | 1.25 | ||
UME | -1.40 | 2.14 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 380 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.79 | 3.21 | ||
KRISS | -0.27 | 0.95 | ||
LNE-LCM/CNAM | 0.99 | 0.79 | ||
NIM | 0.02 | 0.75 | ||
NIST | -0.24 | 0.97 | ||
NMC, A*STAR | -0.64 | 0.92 | ||
NMIA | -2.31 | 2.02 | ||
NMIJ | 0.34 | 1.87 | ||
NPL | -1.37 | 1.54 | ||
NRC | 0.42 | 1.05 | ||
PTB | 0.84 | 0.90 | ||
VNIIOFI | -0.37 | 0.57 | ||
BelGIM | -0.63 | 1.48 | ||
NSC IM | -4.18 | 1.35 | ||
UME | -1.37 | 2.12 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 400 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.91 | 3.22 | ||
KRISS | -0.20 | 0.90 | ||
LNE-LCM/CNAM | 0.94 | 0.76 | ||
NIM | 0.08 | 0.68 | ||
NIST | -0.10 | 0.93 | ||
NMC, A*STAR | -0.51 | 0.86 | ||
NMIA | -2.20 | 1.81 | ||
NMIJ | 1.02 | 1.81 | ||
NPL | -1.29 | 1.47 | ||
NRC | -0.23 | 0.70 | ||
PTB | 0.84 | 0.85 | ||
VNIIOFI | -0.20 | 0.52 | ||
BelGIM | -0.38 | 1.41 | ||
NSC IM | -4.33 | 1.25 | ||
UME | -1.00 | 2.06 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 450 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.98 | 3.20 | ||
KRISS | -0.22 | 0.81 | ||
LNE-LCM/CNAM | 0.50 | 0.69 | ||
NIM | 0.32 | 0.63 | ||
NIST | 0.30 | 0.82 | ||
NMC, A*STAR | -0.62 | 0.80 | ||
NMIA | -1.48 | 1.37 | ||
NMIJ | 0.85 | 1.70 | ||
NPL | -0.79 | 0.94 | ||
NRC | -0.15 | 0.63 | ||
PTB | 0.54 | 0.79 | ||
VNIIOFI | -0.03 | 0.47 | ||
BelGIM | -0.47 | 1.31 | ||
NSC IM | -3.48 | 1.06 | ||
UME | -0.92 | 2.04 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.84 | 3.40 | ||
KRISS | -0.17 | 0.74 | ||
LNE-LCM/CNAM | 0.42 | 0.69 | ||
NIM | 0.29 | 0.59 | ||
NIST | 0.33 | 0.75 | ||
NMC, A*STAR | -0.65 | 0.72 | ||
NMIA | -1.00 | 1.04 | ||
NMIJ | 0.83 | 1.62 | ||
NPL | -0.58 | 0.81 | ||
NRC | -0.05 | 0.57 | ||
PTB | 0.48 | 0.73 | ||
VNIIOFI | 0.01 | 0.44 | ||
BelGIM | -0.32 | 1.26 | ||
NSC IM | -3.19 | 0.97 | ||
UME | -0.78 | 2.00 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 555 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.76 | 3.60 | ||
KRISS | -0.15 | 0.70 | ||
LNE-LCM/CNAM | 0.44 | 0.64 | ||
NIM | 0.33 | 0.54 | ||
NIST | 0.24 | 0.68 | ||
NMC, A*STAR | -0.49 | 0.67 | ||
NMIA | -0.63 | 0.79 | ||
NMIJ | 0.75 | 1.54 | ||
NPL | -0.57 | 0.77 | ||
NRC | -0.09 | 0.53 | ||
PTB | 0.33 | 0.67 | ||
VNIIOFI | -0.01 | 0.40 | ||
BelGIM | -3.57 | 1.23 | ||
NSC IM | -2.50 | 0.97 | ||
UME | -0.23 | 2.00 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 600 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.83 | 3.40 | ||
KRISS | -0.11 | 0.67 | ||
LNE-LCM/CNAM | 0.40 | 0.65 | ||
NIM | 0.33 | 0.52 | ||
NIST | 0.27 | 0.64 | ||
NMC, A*STAR | -0.47 | 0.65 | ||
NMIA | -0.44 | 0.69 | ||
NMIJ | 0.66 | 1.50 | ||
NPL | -0.58 | 0.71 | ||
NRC | -0.08 | 0.50 | ||
PTB | 0.23 | 0.65 | ||
VNIIOFI | 0.04 | 0.36 | ||
BelGIM | -0.32 | 1.25 | ||
NSC IM | -2.14 | 0.86 | ||
UME | 0.04 | 2.00 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 700 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 1.65 | 3.20 | ||
KRISS | 0.03 | 0.63 | ||
LNE-LCM/CNAM | 0.07 | 0.77 | ||
NIM | 0.36 | 0.48 | ||
NIST | 0.17 | 0.57 | ||
NMC, A*STAR | -0.37 | 0.55 | ||
NMIA | -0.08 | 0.87 | ||
NMIJ | 0.52 | 1.43 | ||
NPL | -0.54 | 0.63 | ||
NRC | -0.14 | 0.43 | ||
PTB | 0.13 | 0.60 | ||
VNIIOFI | 0.06 | 0.34 | ||
BelGIM | -0.31 | 1.29 | ||
NSC IM | -1.72 | 0.79 | ||
UME | -0.29 | 2.00 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 800 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.68 | 3.21 | ||
KRISS | 0.27 | 0.62 | ||
LNE-LCM/CNAM | 0.44 | 0.85 | ||
NIM | 0.27 | 0.47 | ||
NIST | -0.20 | 0.50 | ||
NMC, A*STAR | 0.51 | 0.59 | ||
NMIA | 0.23 | 1.20 | ||
NMIJ | 0.49 | 1.37 | ||
NPL | -0.63 | 0.57 | ||
NRC | -0.27 | 0.41 | ||
PTB | -0.08 | 0.56 | ||
VNIIOFI | -0.07 | 0.33 | ||
BelGIM | -1.99 | 1.33 | ||
NSC IM | -1.35 | 0.76 | ||
UME | -0.33 | 2.00 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 900 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | 0.26 | 3.80 | ||
KRISS | -0.19 | 0.56 | ||
LNE-LCM/CNAM | 0.54 | 0.50 | ||
NIM | 0.27 | 0.50 | ||
NIST | 0.12 | 0.44 | ||
NMC, A*STAR | 0.68 | 0.94 | ||
NMIA | 0.63 | 1.41 | ||
NMIJ | 0.68 | 1.34 | ||
NPL | -0.62 | 0.51 | ||
NRC | -0.41 | 0.36 | ||
PTB | -0.09 | 0.53 | ||
VNIIOFI | 0.02 | 0.31 | ||
BelGIM | -0.620 | 1.350 | ||
NSC IM | -0.600 | 0.730 | ||
UME | -0.560 | 2.020 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1000 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -0.57 | 3.80 | ||
KRISS | -0.21 | 0.56 | ||
LNE-LCM/CNAM | 0.61 | 0.49 | ||
NIM | 0.18 | 0.49 | ||
NIST | 0.04 | 0.42 | ||
NMC, A*STAR | 0.61 | 0.56 | ||
NMIA | 0.77 | 1.59 | ||
NMIJ | 0.19 | 1.31 | ||
NPL | -0.58 | 0.47 | ||
NRC | -0.34 | 0.35 | ||
PTB | -0.15 | 0.52 | ||
VNIIOFI | -0.05 | 0.30 | ||
BelGIM | -1.07 | 1.53 | ||
NSC IM | -0.11 | 0.79 | ||
UME | -0.78 | 2.02 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1100 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -0.60 | 4.60 | ||
KRISS | -0.15 | 0.55 | ||
LNE-LCM/CNAM | 0.69 | 0.96 | ||
NIM | -0.09 | 0.48 | ||
NIST | -0.18 | 0.40 | ||
NMC, A*STAR | 0.73 | 0.49 | ||
NMIA | 1.12 | 1.73 | ||
NMIJ | -0.18 | 1.29 | ||
NPL | -0.46 | 0.45 | ||
NRC | -0.17 | 0.33 | ||
PTB | 0.22 | 0.54 | ||
VNIIOFI | 0.04 | 0.28 | ||
BelGIM | 3.06 | 1.82 | ||
NSC IM | 0.10 | 0.72 | ||
UME | -0.71 | 2.02 |
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -0.10 | 4.03 | ||
KRISS | -0.22 | 0.53 | ||
LNE-LCM/CNAM | 1.03 | 0.76 | ||
NIM | -0.06 | 0.47 | ||
NIST | -0.35 | 0.38 | ||
NMC, A*STAR | 0.75 | 0.46 | ||
NMIA | 1.18 | 1.90 | ||
NMIJ | -0.32 | 1.25 | ||
NPL | -0.57 | 0.41 | ||
NRC | 0.49 | 0.76 | ||
PTB | -0.29 | 0.61 | ||
VNIIOFI | -0.10 | 0.30 | ||
NSC IM | 0.59 | 0.91 |
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -0.94 | 4.24 | ||
KRISS | -0.20 | 0.51 | ||
LNE-LCM/CNAM | 1.01 | 0.82 | ||
NIM | 0.05 | 0.49 | ||
NIST | -0.43 | 0.35 | ||
NMC, A*STAR | 0.82 | 0.48 | ||
NMIA | 1.42 | 2.06 | ||
NMIJ | -0.64 | 1.23 | ||
NPL | -0.58 | 0.39 | ||
NRC | 0.37 | 0.84 | ||
PTB | -0.08 | 0.57 | ||
VNIIOFI | -0.06 | 0.29 | ||
NSC IM | 0.72 | 0.9 |
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1700 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
IO-CSIC | -7.26 | 4.23 | ||
KRISS | -0.38 | 0.60 | ||
LNE-LCM/CNAM | 1.63 | 0.57 | ||
NIM | 0.16 | 0.49 | ||
NIST | -0.33 | 0.34 | ||
NMC, A*STAR | 0.99 | 0.43 | ||
NMIA | 1.76 | 2.19 | ||
NMIJ | -0.74 | 1.22 | ||
NPL | -0.71 | 0.56 | ||
NRC | 0.86 | 1.04 | ||
PTB | -0.18 | 0.53 | ||
VNIIOFI | -0.07 | 0.30 | ||
NSC IM | 1.10 | 0.91 |
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2000 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
KRISS | -0.28 | 0.74 | ||
LNE-LCM/CNAM | 2.46 | 0.68 | ||
NIM | 0.10 | 0.50 | ||
NIST | -0.22 | 0.36 | ||
NMC, A*STAR | 0.95 | 0.46 | ||
NMIA | 2.41 | 2.81 | ||
NMIJ | -1.47 | 1.21 | ||
NPL | -0.52 | 0.59 | ||
NRC | 0.52 | 1.64 | ||
PTB | -0.12 | 0.58 | ||
VNIIOFI | 0.03 | 0.36 | ||
NSC IM | 1.22 | 0.97 |
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2200 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
KRISS | -0.93 | 0.86 | ||
LNE-LCM/CNAM | 3.31 | 1.15 | ||
NIM | 0.24 | 0.60 | ||
NIST | -0.10 | 0.41 | ||
NMC, A*STAR | 1.06 | 0.55 | ||
NMIA | 3.11 | 2.43 | ||
NMIJ | -2.04 | 1.19 | ||
NPL | -0.45 | 0.62 | ||
NRC | 1.81 | 4.11 | ||
PTB | 0.16 | 0.78 | ||
VNIIOFI | 0.12 | 0.42 | ||
NSC IM | 1.99 | 1.38 |
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2300 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
KRISS | -0.41 | 0.95 | ||
LNE-LCM/CNAM | 4.38 | 1.33 | ||
NIM | 0.08 | 0.70 | ||
NIST | -0.07 | 0.46 | ||
NMC, A*STAR | 0.86 | 0.57 | ||
NMIA | 4.57 | 2.53 | ||
NMIJ | -1.71 | 1.21 | ||
NPL | -0.42 | 0.67 | ||
NRC | 0.82 | 4.70 | ||
PTB | -0.08 | 0.75 | ||
VNIIOFI | -0.17 | 0.50 | ||
NSC IM | 1.40 | 1.55 |
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2400 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
KRISS | 0.03 | 0.98 | ||
LNE-LCM/CNAM | 6.84 | 2.27 | ||
NIM | -0.16 | 1.12 | ||
NIST | -0.74 | 0.60 | ||
NMC, A*STAR | 0.84 | 0.64 | ||
NMIA | 5.49 | 2.72 | ||
NMIJ | -2.09 | 1.24 | ||
NPL | -0.41 | 0.72 | ||
NRC | 2.67 | 5.38 | ||
PTB | -0.07 | 0.87 | ||
VNIIOFI | -0.10 | 0.59 | ||
NSC IM | 1.3 | 2.1 |
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2500 nm
Degrees of equivalence represented by D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence, both expressed in %.
LAB_{i} | D_{i} | U_{neg,i} | U_{pos,i} | |
---|---|---|---|---|
% |
% |
% |
||
KRISS | -0.27 | 1.20 | ||
LNE-LCM/CNAM | 7.71 | 8.77 | ||
NIM | 0.16 | 1.69 | ||
NIST | 0.00 | 0.78 | ||
NMC, A*STAR | 1.04 | 0.71 | ||
NMIA | 8.62 | 2.52 | ||
NMIJ | -1.98 | 1.86 | ||
NPL | -1.09 | 1.69 | ||
NRC | 3.43 | 12.40 | ||
PTB | 0.04 | 5.74 | ||
VNIIOFI | -0.07 | 0.64 | ||
NSC IM | 1.35 | 6.52 |
CCPR-K1.a.2017
IO-CSIC did not participate at this measurement point
COOMET.PR-K1.a.2018
BelGIM and UME did not participate at this measurement point
Metrology area, Sub-field | Photometry and Radiometry, Properties of detectors and sources |
Description | Spectral Irradiance |
Time of measurements | 2018 - 2019 |
Status | Approved for equivalence |
Final Reports of the comparisons | |
References | |
Measurand | Spectral Irradiance |
Parameters | Wavelength from 250 nn to 2500 nm |
Transfer device | Set of tungsten halogen lamps of FEL-1000W type |
Comparison type | Key Comparison |
Consultative Committee | CCPR (Consultative Committee for Photometry and Radiometry) |
Conducted by | COOMET (Euro-Asian Cooperation of National Metrological Institutions) |
RMO Internal Identifier | COOMET 741/RU/18 |
Comments | |
Pilot institute |
VNIIOFI
All-Russian Scientific Institute for Optical and Physical Measurements, Rosstandart Russian Federation |
Contact person | Boris Khlevnoy +7 495 437 29 88 |
Pilot laboratory | |
---|---|
VNIIOFI |
All-Russian Scientific Institute for Optical and Physical Measurements, Rosstandart, Russian Federation, COOMET |
BelGIM |
Belarussian State Institute for Metrology, Belarus, COOMET |
NSC IM |
National Scientific Centre "Institute of Metrology", Ukraine, EURAMET |
UME |
TÜBITAK Ulusal Metroloji Enstitüsü, Türkiye, EURAMET |
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-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 250 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.62 % u_{R} = 0.28 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 260 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.47 % u_{R} = 0.25 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 270 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.36 % u_{R} = 0.23 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 280 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.30 % u_{R} = 0.22 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 290 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.39 % u_{R} = 0.20 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 300 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.46 % u_{R} = 0.19 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 320 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.36 % u_{R} = 0.18 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 340 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.46 % u_{R} = 0.17 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 360 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.50 % u_{R} = 0.16 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 380 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.51 % u_{R} = 0.15 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 400 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.38 % u_{R} = 0.14 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 450 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.19 % u_{R} = 0.12 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 500 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.13 % u_{R} = 0.11 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 555 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.14 % u_{R} = 0.10 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 600 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.12 % u_{R} = 0.10 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 700 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.08 % u_{R} = 0.09 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 800 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.23 % u_{R} = 0.09 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 900 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.16 % u_{R} = 0.08 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1000 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.20 % u_{R} = 0.08 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1100 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.13 % u_{R} = 0.08 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1300 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.27 % u_{R} = 0.08 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1500 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.25 % u_{R} = 0.08 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 1700 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.21 % u_{R} = 0.09 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2000 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.13 % u_{R} = 0.10 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2200 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.03 % u_{R} = 0.12 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2300 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.13 % u_{R} = 0.13 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2400 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.36 % u_{R} = 0.16 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
NOMINAL VALUE 2500 nm
CCPR-K1.a.2017
The key comparison reference value x_{R} and its associated standard uncertainty u_{R} are calculated using weighted mean with cut-off after excluding outliers and applying the Mandel-Paule method as described in Section 8.4. of the CCPR-K1.a.2017 Final report.
x_{R} = 0.29 % u_{R} = 0.20 %
The degree of equivalence of laboratory i relative to the key comparison reference value x_{R} is given by a pair of terms, both expressed in %:
D_{i} and its expanded uncertainty U_{i} at a 95 % level of confidence are calculated according to section 8.3.3 of the CCPR-K1.a.2017 Final report.
Linking COOMET.PR-K1.a.2018 to CCPR-K1.a.2017
VNIIOFI provides the link between the key comparison COOMET.PR-K1.a.2018 and CCPR-K1.a.2017, having participated in both comparisons. The linking process is described in Section 8 of the COOMET.PR-K1.a.2018 Final Report
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and that obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and that obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and that obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and that obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.
CCPR-K1.a.2017 and COOMET.PR-K1.a.2018
MEASURAND Spectral Irradiance
CCPR-K1.a.2017
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the CCPR-K1.a.2017 Final report.
COOMET.PR-K1.a.2018
Spectral irradiance values reported by participants for their lamps and those obtained by the pilot are available in Section 6 of the COOMET.PR-K1.a.2018 Final report.