We present a numerical study of the near-surface underwater solar light statistics using the state-of-the-art Monte Carlo radiative transfer (RT) simulations in the coupled atmosphere-ocean system. Advanced variance-reduction techniques and full program parallelization are utilized so that the model is able to simulate the light field fluctuations with high spatial [O(10−3 mm)] and temporal [O(10−3 s)] resolutions. In particular, we utilize the high-order correction technique for the beam-surface intersection points in the model to account for the shadowing effect of steep ocean surfaces, and therefore, the model is able to well predict the refraction and reflection of light for large solar zenith incidences. The Monte Carlo RT model is c...
Two distinctive features of underwater light field in the upper ocean were examined: the wave-induce...
Radiative transfer (RT) simulations have long been used to study relationships between the inherent ...
Profiles of downwelling spectral irradiance fluctuation (e'(z,A)) are determined from data take...
A radiative transfer model has been developed to study the solar radiation budget at the wave-deflec...
A Monte Carlo based radiative transfer model has been developed for calculating the availability of ...
A Monte Carlo based radiative transfer model has been developed for calculating the availability of ...
A Monte Carlo model has been developed for calculating the penetration of light into the ocean. For ...
Turbulence in the upper ocean generates fluctuations in temperature and salinity, which result in va...
Light propagation in the atmosphere and ocean is of great importance in marine biology as well as oc...
A Monte Carlo Code for Ocean Color simulations has been developed to model in-water radiometric fiel...
The influence of various wind and wave conditions on the variability of downwelling irradiance Ed (4...
Thesis (Mech. E.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2011.Cata...
A rigorous and modular Monte Carlo radiative transfer model MCRT has been developed to compute radia...
The diffuse attenuation coefficient Kᵈ is critical to understand the vertical distribution of underw...
Vita.Separate Monte Carlo programs are developed to evaluate the distribution of scattered light in ...
Two distinctive features of underwater light field in the upper ocean were examined: the wave-induce...
Radiative transfer (RT) simulations have long been used to study relationships between the inherent ...
Profiles of downwelling spectral irradiance fluctuation (e'(z,A)) are determined from data take...
A radiative transfer model has been developed to study the solar radiation budget at the wave-deflec...
A Monte Carlo based radiative transfer model has been developed for calculating the availability of ...
A Monte Carlo based radiative transfer model has been developed for calculating the availability of ...
A Monte Carlo model has been developed for calculating the penetration of light into the ocean. For ...
Turbulence in the upper ocean generates fluctuations in temperature and salinity, which result in va...
Light propagation in the atmosphere and ocean is of great importance in marine biology as well as oc...
A Monte Carlo Code for Ocean Color simulations has been developed to model in-water radiometric fiel...
The influence of various wind and wave conditions on the variability of downwelling irradiance Ed (4...
Thesis (Mech. E.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2011.Cata...
A rigorous and modular Monte Carlo radiative transfer model MCRT has been developed to compute radia...
The diffuse attenuation coefficient Kᵈ is critical to understand the vertical distribution of underw...
Vita.Separate Monte Carlo programs are developed to evaluate the distribution of scattered light in ...
Two distinctive features of underwater light field in the upper ocean were examined: the wave-induce...
Radiative transfer (RT) simulations have long been used to study relationships between the inherent ...
Profiles of downwelling spectral irradiance fluctuation (e'(z,A)) are determined from data take...