We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM) and demonstrated its use in compensating for system- and sample-induced aberrations. The optimum shape of the DMM was determined with a random search algorithm optimizing on either two photon fluorescence or second harmonic signals as merit factors. We present here several strategies to overcome photobleaching issues associated with lengthy optimization routines by adapting the search algorithm and the experimental methodology. Optimizations were performed on extrinsic fluorescent dyes, fluorescent beads loaded into organotypic tissue cultures and the intrinsic second harmonic signal of these cultures. We validate the approach of using thes...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
We report on the introduction of active optical elements into confocal and multiphoton microscopes i...
We report on the introduction of active optical elements into confocal and multiphoton microscopes i...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
We have developed a nonlinear adaptive optics microscope utilizing a deformable membrane mirror (DMM...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
Nonlinear microscopy is capable of imaging biological tissue non-invasively with sub-cellular resolu...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
Sample induced optical aberrations in slices of rat brain tissue have been corrected with a deformab...
We report on the introduction of active optical elements into confocal and multiphoton microscopes i...
We report on the introduction of active optical elements into confocal and multiphoton microscopes i...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
Optical microscopy has been a cornerstone of life science investigations since its first practical a...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...
A major problem when imaging at depth within a biological sample in confocal or nonlinear microscopy...