Mickael Mounaix

TL;DR: This work reports the broadband characterization of the propagation of light through a multiple scattering medium by means of its multispectral transmission matrix and demonstrates spatiotemporal focusing of the pulse at any arbitrary position and time with any desired spectral shape.

TL;DR: This work identifies 75 harmonic vibration modes in a single electromechanical resonator of which 7 can also be parametrically excited and exploits this array to execute a mechanical byte memory, a shift-register and a controlled-NOT gate thus vividly illustrating the availability and functionality of an electromech mechanical resonator array by simply utilising higher order vibration modes.

TL;DR: In this paper, the spatial profile of transmitted coherent light after propagation through a strongly scattering sample is designed at will based on the experimentally measured transmission matrix, obtained by numerically adding an arbitrary mask in the Fourier domain prior to focusing.

TL;DR: In this article, a method to characterize the propagation of an ultrashort pulse of light through a multiple scattering medium by measuring its time-resolved transmission matrix is presented. But this method is based on the use of a spatial light modulator together with a coherent time-gated detection of the transmitted speckle field.

TL;DR: In this article, a class of ultrafast wavefront shaper is demonstrated, capable of generating a sequence of arbitrary 2D spatial/polarisation wavefronts at a bandwidth limited rate of 4.4