Williams, P.
, Rogers, K.
, Hadler, J.
, Artusio-Glimpse, A.
and Lehman, J.
(2021),
Axial force radiometer for primary standard laser power measurements using photon momentum, Metrologia
(Accessed February 14, 2026)
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Axial force radiometer for primary standard laser power measurements using photon momentum
Published
Author(s)
, , , ,
Abstract
We have fully demonstrated operation of a new photon momentum radiometer for measuring laser power levels above 1 kW by use of radiation pressure. The "axial" design allows the input and output laser beams to remain collinear and the force sensing can be carried out with any analytical balance having a vertical sensing direction and suitable performance specifications. The design also includes a parasitic photodiode power measurement that is calibrated in situ by the radiation pressure- based power. This permits a higher bandwidth of measurement limited only by the photodiode bandwidth, rather than that of the force balance. Uncertainty contributions are fully discussed yielding a relative expanded uncertainty of 2.1 % for 1-2 kW and 1.2 % above 2 kW (for laboratory environmental conditions). We perform a direct comparison between this new power meter and the existing primary standard Radiation Pressure Power Meter. We find the two techniques agree within 0.5 % from 1- 10 kW of cw optical power. This disagreement is well-explained by the combined uncertainties of the two techniques.Citation
Metrologia
Pub Type
Journals
Keywords
Radiation pressure, photon momentum, radiometry, laser power, high power laser
Citation
Issues
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Created January 11, 2021, Updated February 13, 2026