Light

New “metalens” shifts focus without tilting or moving

The design may enable miniature zoom lenses for drones, cellphones, or night-vision goggles.

February 22, 2021

New type of atomic clock keeps time even more precisely

The design, which uses entangled atoms, could help scientists detect dark matter and study gravity’s effect on time.

December 16, 2020

elementary units of magnetism, called spins

Ultracold atoms reveal a new type of quantum magnetic behavior

The findings may help researchers design “spintronic” devices and novel magnetic materials.

December 16, 2020

Physicists capture the sound of a “perfect” fluid

The results should help scientists study the viscosity in neutron stars, the plasma of the early universe, and other strongly interacting fluids.

December 3, 2020

wide-field-of-view metalens capturing a 180° panorama of MIT’s Killian Court

Engineers produce a fisheye lens that’s completely flat

The single piece of glass produces crisp panoramic images.

September 18, 2020

MIT graduate student Nicholas Rivera (middle) and two students from Professor Ido Kaminer's lab visit Masada National Park near the Dead Sea in Israel.

Shining a light on the quantum world

With funding from MISTI, physicists at MIT and in Israel collaborate to improve understanding and use of quantum light.

July 27, 2020

An MIT-designed miniature “squeezer” reduces quantum noise in lasers at room temperature. The marble-sized system could enable better laser precision for quantum computing and gravitational-wave detection. This illustration shows an artist’s interpretation of the system.

Portable system boosts laser precision, at room temperature

“Light squeezer” reduces quantum noise in lasers, could enhance quantum computing and gravitational-wave detection.

July 7, 2020

Researchers from MIT, Google, and elsewhere have designed a novel method for verifying when quantum processors have accurately performed complex computations that classical computers can’t. They validate their method on a custom system (pictured) that’s able to capture how accurately a photonic chip (“PNP”) computed a notoriously difficult quantum problem.

How to verify that quantum chips are computing correctly

A new method determines whether circuits are accurately executing complex operations that classical computers can’t tackle.

January 13, 2020

MIT researchers have fabricated a diamond-based quantum sensor on a silicon chip using traditional fabrication techniques (pictured), which could enable low-cost quantum hardware.

Quantum sensing on a chip

Researchers integrate diamond-based sensing components onto a chip to enable low-cost, high-performance quantum hardware.

September 25, 2019

Images showing interference patterns (top) and a Wilson loop (bottom) were produced by the researchers to confirm the presence of non-Abelian gauge fields created in the research.

Exotic physics phenomenon is observed for first time

Observation of the predicted non-Abelian Aharonov-Bohm Effect may offer step toward fault-tolerant quantum computers.

September 5, 2019

Chip design drastically reduces energy needed to compute with light

Simulations suggest photonic chip could run optical neural networks 10 million times more efficiently than its electrical counterparts.

June 5, 2019

MIT researchers have developed novel photography optics, dubbed “time-folded optics,” that captures images based on the timing of reflecting light inside the lens, instead of the traditional approach that relies on the arrangement of optical components. The invention opens doors for new capabilities for ultrafast time- or depth-sensitive cameras.

Novel optics for ultrafast cameras create new possibilities for imaging

Technique can capture a scene at multiple depths with one shutter click — no zoom lens needed.

August 13, 2018

Researchers at MIT and Israel's Technion used a thin-film material composed of layers of gallium-arsenide and indium-gallium-arsenide, overlaid with a layer of graphene, as shown in this diagram, to produce strong interactions between light and particles that could someday enable highly tunable lasers or LEDs.

Researchers devise new way to make light interact with matter

Reducing the wavelength of light could allow it to be absorbed or emitted by a semiconductor, study suggests.

June 4, 2018

This cloaking grenade, used for hiding troop operations from view on the battlefield, is an example of nanoparticles that reflect a particular color of light based on their exact size and composition. New work by MIT researchers provides a way to predict the light-scattering properties of layered nanoparticles – or to design particles to match a desired type of light-scattering behavior.

AI-based method could speed development of specialized nanoparticles

Neural network could expedite complex physics simulations.

June 1, 2018

A drawing illustrates the unusual topological landscape around a pair of features known as exceptional points (red dots), showing the emergence of a Fermi arc (pink line at center), and exotic polarization contours that form a Mobius-strip-like texture (top and bottom strips).

New exotic phenomena seen in photonic crystals

Researchers observe, for the first time, topological effects unique to an “open” system.

January 11, 2018

MIT News | Massachusetts Institute of Technology

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