The effects of surface roughness on the calculated, spectral, conical–conical reflectance factor as an alternative to the bidirectional reflectance distribution function of bare sea ice

Lamare, Maxim; Hedley, John D.; King, Martin D.

doi:10.5194/tc-17-737-2023

The Cryosphere

2023

DOI: 10.5194/tc-17-737-2023

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The effects of surface roughness on the calculated, spectral, conical–conical reflectance factor as an alternative to the bidirectional reflectance distribution function of bare sea ice

Maxim Lamare

John D. Hedley²,

Martin D. King

Abstract: Abstract. The conical–conical reflectance factor (CCRF) has been calculated as an alternative to the bidirectional reflectance distribution function (BRDF) for three types of bare sea ice with varying surface roughness (σ= 0.1–10) and ice thicknesses (50–2000 cm) over an incident solar irradiance wavelength range of 300–1400 nm. The comprehensive study of the CCRF of sea ice presented here is paramount for interpreting sea ice measurements from satellite imagery and inter-calibrating space-borne sensors that d… Show more

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Cited by 5 publications

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Statistics of Wind Farm Wakes for Different Layouts and Ground Roughness

Wang

Dong

et al. 2023

Boundary-Layer Meteorol

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In this work, the effects of streamwise turbine spacings on the wake characteristics of wind farms are investigated using large-eddy simulation with an actuator disk model for the wind turbine. The simulated farm consists of 10 × 10 wind turbines located in an aligned way. Three different streamwise turbine spacings, i.e., S x /D = 6, 8 and 10 (where D is the rotor diameter), are considered. The simulation results showed that the effects of S x are mainly located in the near wake (x/D < 10), where the turbulence intensity is higher for smaller values of S x . In the far wake, the streamwise velocity deficit as well as the Reynolds stresses from cases with different streamwise turbine spacings are close to each other. Terms in the budget equation for the mean kinetic energy (MKE) are examined. The analysis showed that the vertical MKE transport via mean convection and turbulence convection plays a dominant role in the velocity recovery in wind farm wakes, which are different from that in the wind farm region where the streamwise MKE flux due to mean convection also plays an important role and the role of the vertical MKE transport is different. Lastly, an existing analytical model for the wind farm wake is tested using the simulation results. A modification to the analytical model is proposed to include the effect of vertical mean convection on the velocity recovery.

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Statistics of Wind Farm Wakes for Different Layouts and Ground Roughness

Wang

Dong

et al. 2023

Boundary-Layer Meteorol

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To what extent do sea-ice algae affect the modelled transmittance of photosynthetically active radiation (PAR) to the ice-ocean interface?

Redmond Roche,

King

2024

J. Glaciol.

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Photosynthetically active radiation (PAR) at the ice-ocean interface is critical for primary production. The value of PAR is affected by the thickness of snow and sea ice, with additional absorbers (e.g. algae) further attenuating PAR. Sea-ice algae exhibit a substantial geo-temporal variance in column-integrated concentration (0–500 mg chl-a m−2) and are typically present within the bottom 0.01–0.2 m of sea ice. PAR transmittance is affected by algae concentrations and vertical thicknesses of ice algal layers. Small column-integrated concentrations of chl-a (~<10 mg chl-a m−2) have a negligible effect on the value of PAR transmittance, and large column-integrated concentrations of chl-a (~>10 mg chl-a m−2) can significantly reduce the value of PAR transmittance. Large column-integrated concentrations of chl-a need consideration when calculating PAR transmittance in areas of high sea-ice algae biomass (e.g. the ‘interior’ shelves of the Arctic Ocean, the Canadian Arctic and Antarctica).

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Nanoroughness-induced antireflection and haze effects in opaque systems

Gareyan,

Margaryan,

Gevorkian

2024

Phys. Rev. A

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How to make a material antireflective without changing its high refraction index? Achieving antireflection in high-refractive-index materials poses challenges due to their high reflectivity (Fresnel equations). Based on theory with new boundary conditions, we propose modifying surface properties on a nanoscale to tackle this. Our study on weakly rough opaque surfaces reveals significant changes in specular and diffuse scattering, predicting antireflection where roughness matches light penetration depth. Experimental validation on nanoroughened Si films (at wavelengths 300 to 400 nm) supports our findings. We also analyze angular and polarization dependences of nanoroughness-induced haze, showing predominant p polarization and minimal haze at nanoscale, yet impactful specular reflection reduction. Published by the American Physical Society 2024

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The effects of surface roughness on the calculated, spectral, conical–conical reflectance factor as an alternative to the bidirectional reflectance distribution function of bare sea ice

Cited by 5 publications

References 57 publications

Statistics of Wind Farm Wakes for Different Layouts and Ground Roughness

Statistics of Wind Farm Wakes for Different Layouts and Ground Roughness

To what extent do sea-ice algae affect the modelled transmittance of photosynthetically active radiation (PAR) to the ice-ocean interface?

Nanoroughness-induced antireflection and haze effects in opaque systems

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