The invention and advancement of biological microscopy depends critically on an ability to accurately simulate imaging of complex biological structures embedded within complex scattering media. Unfortunately no technique exists for rigorous simulation of the complete imaging process, including the source, instrument, sample and detector. Monte-Carlo modelling is the gold standard for the modelling of light propagation in tissue, but is somewhat laborious to implement and does not incorporate the rejection of scattered light by the microscope. On the other hand microscopes may be rigorously and rapidly modelled using commercial ray-tracing software, but excluding the interaction with the biological sample. We report a hybrid Monte-Carlo opti...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
Past work on scattering by biological cells has been restricted to unrealistic oversimplified models...
We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like scattering me...
We report the first holistic modelling of optical systems for imaging in turbid media. Using a user-...
Nowadays optical and laser-based diagnostics technologies are widely used in many fields such as onc...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
Optical \ud Coheren\ud ce\ud Tomography (\ud OCT) is \ud a\ud n emerging\ud imaging technique\ud tha...
Biomedical optical techniques of treatment, characterization and surgery are strongly dependent on l...
We present a computational modeling approach for imitation of the time-domain optical coherence tomo...
In the recent years, optical imaging has attracted increasing attention in the field of clinical dia...
Optical scattering and absorption characterize light transport in biological tissue. A popular techn...
A Monte Carlo simulation-based computational model has been developed for tracing the pathway of lig...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
Significance: Optical microscopy is characterized by the ability to get high resolution, below 1 μm...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
Past work on scattering by biological cells has been restricted to unrealistic oversimplified models...
We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like scattering me...
We report the first holistic modelling of optical systems for imaging in turbid media. Using a user-...
Nowadays optical and laser-based diagnostics technologies are widely used in many fields such as onc...
Monte Carlo simulation methods are considered as an effective method to simulate the light transport...
Optical \ud Coheren\ud ce\ud Tomography (\ud OCT) is \ud a\ud n emerging\ud imaging technique\ud tha...
Biomedical optical techniques of treatment, characterization and surgery are strongly dependent on l...
We present a computational modeling approach for imitation of the time-domain optical coherence tomo...
In the recent years, optical imaging has attracted increasing attention in the field of clinical dia...
Optical scattering and absorption characterize light transport in biological tissue. A popular techn...
A Monte Carlo simulation-based computational model has been developed for tracing the pathway of lig...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
Significance: Optical microscopy is characterized by the ability to get high resolution, below 1 μm...
This book provides a systematic introduction to the principles of microscopic imaging through tissue...
Past work on scattering by biological cells has been restricted to unrealistic oversimplified models...
We explore the propagation of the cylindrical vector beams (CVB) in turbid tissue-like scattering me...