We present a coherent optical method for wavelength-resolution imaging of moving objects
hidden within thick randomly scattering media. Spatial speckle intensity correlations as a …

The multiple scattering of light presents major challenges in realizing useful in vivo imaging
at tissue depths of more than about one millimeter, where many answers to health questions …

A computationally efficient radiative transport model is presented that predicts a camera
measurement and accounts for the light reflected and blocked by an object in a scattering …

Diffuse optical imaging through centimeters of tissue has emerged as a powerful tool in
biomedical research. However, applications in the operating theater have been limited in …

A super-resolution optical imaging method is presented that relies on the distinct temporal
information associated with each fluorescent optical reporter to determine its spatial position …

Degraded visual environments like fog pose a major challenge to safety and security
because light is scattered by tiny particles. We show that by interpreting the scattered light it …

Progress in developing optical imaging for biomedical applications requires customizable
and often complex objects known as" phantoms" for testing, evaluation, and calibration. This …

Imaging fluorescence through millimeters or centimeters of tissue has important in vivo
applications, such as guiding surgery and studying the brain. Often, the important …

Imaging and sensing through opaque scattering media is a topic of broad interest with a
wide range of applications. Methods are impacted by speckle, which refers to grainy patterns …

Optical imaging methods are limited by the wavelength of light that they use and the amount
of scatter that must be imaged through. Super-resolution imaging and sensing methods are …