The last decade has seen the development of a wide set of tools, such as wavefront
sha**, computational or fundamental methods, that allow us to understand and control …

Commercial lighting for ambient and display applications is mostly based on blue light-
emitting diodes (LEDs) combined with phosphor materials that convert some of the blue light …

We demonstrate experimentally the efficient control of light intensity distribution inside a
random scattering system. The adaptive wave front sha** technique is applied to a silicon …

Transmission eigenchannels are building blocks of coherent wave transport in diffusive
media, and selective excitation of individual eigenchannels can lead to diverse transport …

The control and use of light polarization in optical sciences and engineering are
widespread. Despite remarkable developments in polarization-resolved imaging for life …

While a three-dimensional (3D) scattering medium is from the outset opaque, such a
medium sustains intriguing transport channels with near-unity transmission that are pursued …

Selective excitation of a diffusive system's transmission eigenchannels enables
manipulation of its internal energy distribution. The fluctuations and correlations of the …

The optical memory effect has emerged as a powerful tool for imaging through multiple-
scattering media; however, the finite angular range of the memory effect limits the field of …

Light-matter interactions inside a turbid medium can be controlled by tailoring the spatial
distribution of energy density throughout the system. Wavefront sha** allows selective …

The recent advent of wave-sha** methods has demonstrated the focusing of light through
and inside even the most strongly scattering materials. Typically in wavefront sha**, light …