Add to ORKGOsmotic conditions play an important role in the cell properties of human red blood cells (RBCs), which are crucial for the pathological analysis of some blood diseases such as malaria. Over the past decades, numerous efforts have mainly focused on the study of the RBC biomechanical properties that arise from the unique deformability of erythrocytes. Here, we demonstrate nonlinear optical effects from human RBCs suspended in different osmotic solutions. Specifically, we observe self-trapping and scattering-resistant nonlinear propagation of a laser beam through RBC suspensions under all three osmotic conditions, where the strength of the optical nonlinearity increases with osmotic pressure on the cells. This tunable nonlinearity is attribut...
It is commonly thought that biological media cannot exhibit an appreciable nonlinear optical respons...
A quasi-elastic light-scattering (QELS) microscope spectrometer was used to study the dynamic proper...
Red blood cells (RBCs) or erythrocytes are essential for oxygenating the peripherical tissue in the ...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
International audienceIn the past decade, the development of artificial materials exhibiting novel o...
We investigate the physics of an optically trapped red blood cell under physiological conditions. Wh...
By employing a series of massively parallel ab-initio simulations, we study how optical forces act o...
The perspective of using live cells as lenses could open new revolutionary and intriguing scenarios ...
The perspective of using live cells as lenses could open new revolutionary and intriguing scenarios ...
We report here on studies of reorientation of human red blood cells (RBCs) in an optical trap. We ha...
It is commonly thought that biological media cannot exhibit an appreciable nonlinear optical respons...
A quasi-elastic light-scattering (QELS) microscope spectrometer was used to study the dynamic proper...
Red blood cells (RBCs) or erythrocytes are essential for oxygenating the peripherical tissue in the ...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
Osmotic conditions play an important role in the cell properties of human red blood cells (RBCs), wh...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
In the past decade, the development of artificial materials exhibiting novel optical properties has ...
International audienceIn the past decade, the development of artificial materials exhibiting novel o...
We investigate the physics of an optically trapped red blood cell under physiological conditions. Wh...
By employing a series of massively parallel ab-initio simulations, we study how optical forces act o...
The perspective of using live cells as lenses could open new revolutionary and intriguing scenarios ...
The perspective of using live cells as lenses could open new revolutionary and intriguing scenarios ...
We report here on studies of reorientation of human red blood cells (RBCs) in an optical trap. We ha...
It is commonly thought that biological media cannot exhibit an appreciable nonlinear optical respons...
A quasi-elastic light-scattering (QELS) microscope spectrometer was used to study the dynamic proper...
Red blood cells (RBCs) or erythrocytes are essential for oxygenating the peripherical tissue in the ...