Imaging

A visualization of the data for a sample provided by DNA microscopy, with random colors assigned to individual inferred cells.

A chemical approach to imaging cells from the inside

Researchers develop a new microscopy system for creating maps of cells, using chemical reactions to encode spatial information.

June 20, 2019

MIT researchers have developed a system that gleans far more labeled training data from unlabeled data, which could help machine-learning models better detect structural patterns in brain scans associated with neurological diseases. The system learns structural and appearance variations in unlabeled scans, and uses that information to shape and mold one labeled scan into thousands of new, distinct...

From one brain scan, more information for medical artificial intelligence

System helps machine-learning models glean training information for diagnosing and treating brain conditions.

June 19, 2019

Researchers at MIT and MGH have developed an image-guided surgical system that could help surgeons better visualize and remove tiny ovarian tumors. Fluorescent carbon nanotubes are used as probes to bind to the tumors, making them easier to see.

Imaging system helps surgeons remove tiny ovarian tumors

More effective surgery could boost survival rates for ovarian cancer.

April 23, 2019

MIT researchers have developed a new technique using quantum reference beacons for superresolution optical focusing in complex media.

Technique could boost resolution of tissue imaging as much as tenfold

Approach developed by MIT engineers surmounts longstanding problem of light scattering within biological tissue and other complex materials.

January 31, 2019

MIT chemists have enhanced the resolution of nuclear magnetic resonance (NMR), which should allow more rapid and detailed study of proteins such as the beta amyloid protein that accumulates in the brains of Alzheimer’s patients.

Enhanced NMR reveals chemical structures in a fraction of the time

Technique could yield insights into complex proteins involved in Alzheimer’s and other diseases.

January 18, 2019

A 3-D rendering of mouse visual cortex stretching from the surface at left to the subplate on the right. The green color represents calcium signals of neural activity and magenta represents blood vessels and myelin fibers in the white matter.

Scope advance gives first look through all cortical layers of the awake brain

Substantial refinements of three-photon microscopy allow for novel discoveries in neuroscience.

January 11, 2019

This lidar image shows how lake water has spilled over and washed out several large sections of roadway and train tracks in Boiling Spring Lakes, North Carolina.

Lidar accelerates hurricane recovery in the Carolinas

Lincoln Laboratory's lidar data, processed quickly with support from the organization MCNC, helped FEMA assess flooding and damages caused by Hurricane Florence.

December 21, 2018

Riccardo Comin (left), an assistant professor of physics, and physics graduate student Abraham Levitan assemble the contacts on a sample holder that they’ll use to study the effects of high current on the superconducting material yttrium barium copper oxide, in the cryogenic optical spectrometer seen in the foreground. The setup enables the researchers to perform Raman spectroscopy down to 4 kel...

Better superconductors from ceramic copper oxides

Riccardo Comin seeks to elucidate the microscopic physics of high-temperature superconducting devices to advance their technological applications.

December 13, 2018

BP Amoco Chemical Company Senior Research Chemist Matthew Kulzick outlines advances in imaging technology during the MIT MRL Materials Day Symposium on Oct. 10.

Solving a multi-million dollar problem

In MIT visit, BP chemist details new X-ray and sample chamber technologies, yielding insights into fighting metal corrosion, improving catalytic reactions, and more.

November 13, 2018